# Fileset

[SuperCon_ReadMe_en.pdf](https://mdr.nims.go.jp/filesets/4f1fcd20-92ea-4b53-8c2d-29281d2ca642/download)

## Creator

[Masashi Ishii](https://orcid.org/0000-0003-0357-2832)

## Rights

[Creative Commons BY Attribution 4.0 International](https://creativecommons.org/licenses/by/4.0/)

## Other metadata

[MDR SuperCon Datasheet Readme Ver.2.0](https://mdr.nims.go.jp/datasets/a2d53038-f12e-45dd-b7a8-ca262ea3b357)

## Fulltext

1 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 Numerical Data Sheet for Superconducting Materials, MDR SuperCon Datasheet User's Guide Ver 2.0* NIMS Masashi Ishii DATASHEET OVERVIEW USAGE RULES SuperCon, which had been published using a Graphical User Interface (GUI), has been replaced by a datasheet publication due to the aging database application. The platform for publication is now MDR (Materials Data Repository, https://mdr.nims.go.jp/), newly renamed "MDR SuperCon Datasheet". A DOI will be assigned for each update of the data and for version management. Use of the data will be in accordance with MDR's Terms of Use, and when publishing your results, please use the following sample text to clearly state the DOI of the data you have used, and please include the appropriate provenance:  (Example of statement) This study used the MDR SuperCon Datasheet (DOI*), a numerical data sheet for superconducting materials, which is made public by the National Institute for Materials Science (NIMS). *Please provide the DOI for the version you actually used. NIMS does not guarantee the quality of the data contained in this datasheet and is not responsible for any problems that may result with the use of this datasheet. BASIC DATA STRUCTURES The MDR SuperCon Datasheet consists of the following files: Readme (common)  Metadata supercon-rm-mdr-schema.yml and supercon-rm-mdr-schema.json  Read me  SuperCon_ReadMe.pdf and SuperCon_ReadMe_en.pdf, ReadmeTbl.xlsx  Preview data primary.tsv  Thumbnail XXXXX.png Each version  Metadata YYMMDD_MDR_supercon-mdr-schema.yml and YYMMDD_MDR_supercon-mdr-schema.json  Data Tables YYMMDD_MDR_OAndM.txt and YYMMDD_MDR_Organic.txt  Figure/data Figure.zip and data.zip 2 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 Readme (common) Metadata is a machine-readable file that summarizes the basic information of this datasheet and is available in YAML and JSON formats. There is no difference in content between the two formats. Read me is this document, its English version, and an Excel file of the tables used in these documents. Preview data is a Simple Dataset for Machine Learning of SueprCon. This dataset is a summary of the Tc-related data in this datasheet. The actual file name is primary.tsv. The thumbnail is an example of a systematic dataset derived from this datasheet. Each version Metadata is a machine-readable file that summarizes the basic information of each version and is available in YAML and JSON formats. There is no difference in content between the two formats. The data tables are divided into two parts: “Oxide & Metallic (YYMMDD_MDR_OAndM.txt)” and “Organic (YYMMDD_MDR_Organic.txt)”. Whenever the data is updated, the version information (DOI) is revised. Although it is possible to select an older version, we recommend that you use the latest version. The first three rows of each column show, from the top, the data number, label, and symbol. In the conventional SuperCon, only the symbols shown in the third row could be seen in the GUI. In order to improve human readability, we have introduced labels. In this guide, each column will be denoted by "data-number-label-symbol". Figure/data are the figures and their text data conventionally published at SuperCon. Below is a guide to the data tables and Figure/data in particular. DATA TABLE: DATA SCREENING Although the entries in the table do not differ from those in the conventional SuperCon database, the GUI search function is no longer available, so users of the table will need to screen the data in order to find the target data. For quick GUI searches, please use https://materiage.org/supercon/  This section provides information on operations corresponding to the SuperCon top search screen that you have been using in the past. OXIDE＆METALLIC The Oxide & Metallic Search System was as shown in Figure 1. (1) Select Input Search Element For searches corresponding to this function, the equivalent operation can be achieved by extracting lines containing the symbol of the target element from 6-chemical formula-https://materiage.org/supercon/3 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 element. For single elements, it is convenient to use 7-element name of materials-ma1 to extract lines with the target element symbol. (2) Select Structure ① Quick Search Oxide This function was conventionally used to screen specifically for 31 representative oxide structures, but in this datatable, structures other than 31 can also be extracted by using the line with the desired structure in 67-common name of structure-str3. For screening of oxides, it is useful to exclude blank rows in 27-oxygen-mo1. ② Quick Search Metallic This function was conventionally used to screen specifically for 16 representative metal structures, however, in this datatable, it is possible to extract structures other than the 16 by extracting the rows with the desired structure in 67-common name of structure-str3. ③ Select from all This function is equivalent to extracting the line with the desired structure from all 67-common-name-of-structure-str3 entries. (3) Select Property ① Property This function was conventionally performed by selecting from 17 preset properties, however, it is now possible to screen all recorded properties and measurement methods (about 110 in total) in the data list to be described later, by excluding blank lines. ② Year The function can be accomplished by using 31-publication-year-of-reference-year or 194-publication-year-of-reference-year in the datatable. ③ Detail This function used to perform faceted searches in 92 items. As described in ①Property, all data, including measurement methods, etc., are now available. As described here, the 67-common name of structure-str3 plays an important role in overviewing the data. In this item, the 4-digit system like Bi2212 is adopted in general, and popular names such as ladder (LD), infinite layer (IL), etc. are also included. For other than oxides, structure type (Pearson handbook) is adopted in principle, and fullrene, chevrel, skutterudite, etc., which are frequently used, are also employed. Materials that are difficult to classify are left blank. 4 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322  Figure. 1 Oxide & Metallic Search System image in conventional SuperCon (for reference)  ORGANIC The Organic Search System was as shown in Figure 2.  (1) Structure The search corresponding to this function can equivalently be performed by extracting the rows containing the target structure in 6-structure-str. Since the conventional 37 selections covered all the recorded structures, it is equivalent to using 6-structure-str for screening this table. (2) Property Although only the three types of Tc, Hc, and SP were conventionally subject to screening, this function is available by excluding blank lines for all recorded properties and measurement methods (about 30 types in total) in the data list described later.  Figure 2 Organic Search System image in conventional SuperCon (for reference)   5 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 Details of data entries (Duplicate items and empty data items have been deleted.) Oxide & Metallic  Number DB Label Description Category Data type1 num data number data number Material Integer2 refno reference number reference number Material String3 commt comment Comment Material String4 name common formula of materials common formula of materials Material String6 element chemical formula chemical formula Material String7 ma1 element name of materials element name of materials Material String8 ma2 composition of MA1 composition of material 1 Material Float9 mb1 element name of materials element name of materials Material String10 mb2 composition of MA2 composition of material 2 Material Float11 mc1 element name of materials element name of materials Material String12 mc2 composition of MA3 composition of material 3 Material Float13 md1 element name of materials element name of materials Material String 14 md2 composition of MA4 composition of material 4 Material Float15 me1 element name of materials element name of materials Material String16 me2 composition of MA5 composition of material 5 Material Float17 mf1 element name of materials element name of materials Material String18 mf2 composition of MA6 composition of material 6 Material Float19 mg1 element name of materials element name of materials Material String20 mg2 composition of MA7 composition of material 7 Material Float21 mh1 element name of materials element name of materials Material String22 mh2 composition of MA8 composition of material 8 Material Float23 mi1 element name of materials element name of materials Material String24 mi2 composition of MA9 composition of material 9 Material Float25 mj1 element name of materials element name of materials Material String26 mj2 composition of MA10 composition of material 10 Material Float27 mo1 oxygen oxygen Material String28 mo2 common formula of oxygen common formula of oxygen Material String29 oz measured value of Oxygen content measured value of Oxygen content Material Float30 shape shape*sample form (1: single phase(bulk),2: multi phase(bulk),3: single crystal(bulk) ,4:film,5:film(single))Material Integer31 year publication year of reference year of reference Material Integer33 ukai unit of KAIZERO unit of KAIZERO Magnetic property String34 kaizerotemperature independent term insusceptibilitytemperature independent term in susceptibility Magnetic property Double35 ucc unit of CURIEC unit of CURIEC Magnetic property String36 curiec Curie constant Curie constant Magnetic property Double37 umoment unit of MOMENT unit of MOMENT Magnetic property String38 moment magnetic moment per formula magnetic moment per formula Magnetic property Float39 curiet Curie temperature Curie temperature Magnetic property Float40 neelt Neel temperature Neel temperature Magnetic property Float41 dens density (gcm-3) Density Mechanical property Float42 uhv unit of hardness unit of hardness Mechanical property String45 hv300 hardness at 300 K hardness at 300K Mechanical property Float46 uye unit of Young's modulus unit of Young's modulus Mechanical property String47 yehe Young's modulus at 4.2 K Young's modulus at 4.2K Mechanical property Double49 ye300 Young's modulus at 300 K Young's modulus at 300K Mechanical property Double50 ug unit of shear modulus unit of shear modulus Mechanical property String51 ghe shear modulus at 4.2 K shear modulus at 4.2K Mechanical property Float53 g300 shear modulus at 300 K shear modulus at 300K Mechanical property Float54 ub unit of bulk modulus unit of bulk modulus Mechanical property String55 bhe unit of bulk modulus at 4.2 K unit of bulk modulus at 4.2K Mechanical property Float57 b300 unit of bulk modulus at 300 K unit of bulk modulus at 300K Mechanical property Float58 pohe Poisson ratio at 4.2 K Poisson ratio at 4.2K Mechanical property Float60 po300 Poisson ratio at 300 K Poisson ratio at 300K Mechanical property Float61 usv unit of sound velocity unit of sound velocity Mechanical property String62 svhe sound velocity at 4.2 K sound velocity at 4.2K Mechanical property Double64 sv300 sound velocity at 300 K sound velocity at 300K Mechanical property Double65 svfig figure number for SV(T) figure number for SV(T) Mechanical property String66 str1 *crystal structure, symmetry*crystal structure, symmetry (1=cubic,2=tetragonal,3=orthorhombic,4=monoclinic,5=triclinic,6=trigonal,7=hexagonal)Structure Integer67 str3 common name of structure *common name of structure Structure String68 spaceg space group space group Structure String69 tblno international table number international table number Structure Integer70 ulat unit of lattice constant unit of lattice constant Structure String6 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322   71 lata lattice constant a lattice constant a Structure Float72 latb lattice constant b lattice constant b Structure Float73 latc lattice constant c lattice constant c Structure Float74 analm *method of analysis for structure*method of analysis for structure (1.X-ray crystallography2.Neutron　crystallography 3.Powder x-ray diffraction4.Powder neutron diffraction　5.Electron diffraction）Structure String75 model figure number of structure model figure number of structure model Structure String76 udldt unit of D(L)DT unit of DLDT Structure String77 dadt temperature dependence of LATA temperature dependence of LATA Structure Float78 dbdt temperature dependence of LATB temperature dependence of LATB Structure Float79 dcdt temperature dependence of LATC temperature dependence of LATC Structure Float80 udldp unit of D(L)DP unit of DLDP Structure String81 dadp pressure dependence of LATA pressure dependence of LATA Structure Float82 dbdp pressure dependence of LATB pressure dependence of LATB Structure Float83 dcdp pressure dependence of LATC pressure dependence of LATC Structure Float84 strcmt comments for structure comment for structure Structure String85 utc unit of Tc unit of Tc Superconductivity String86 t1 transition temperature (R = 0) transition temperature (R=0) Superconductivity Float87 t2 transition temperature (mid point) transition temperature (mid point) Superconductivity Float88 t3 transition temperature (R = 100%) transition temperature (R=100%) Superconductivity Float89 tcsus Tc from susceptibility measurement Tc from susceptibility measurement Superconductivity Float90 tcnlowest temperature for measurement (notsuperconducting)lowest temperature for measurement (notsuperconducting)Superconductivity Float91 tcwidth transition width for resistive transition transition width for resistive transition Superconductivity Float92 tc Tc (of this sample) recommended Tc (of this sample) recommended Superconductivity Float93 tcfig figure number for Tc(p, x, etc) figure number for Tc(p, x, etc) Superconductivity String94 tcmeth tc measurement method(1.magnetization, 2.ac susceptibility, 3.resistivity, 4.heatcapacity, 5.tunneling, 6.infrared spectroscopy, 7.thermalconductivity, 8.Raman spectroscopy , 9.nuclear magneticresonance, 10.surface impedance, 11.neutron diffraction,12.photoemission spectroscopy, 13.microwavetransmission, 14.Others)Superconductivity Integer95 udtcdp unit of DTCDP unit of DTCDP Superconductivity String　96 dtcdp slope at P = 0 in Tc vs P plot slope at P=0 in Tc vs P plot Superconductivity Float97 pmax maximum pressure applied maximum pressure applied Superconductivity Float98 isotope alpha in Tc = A * M^(-alpha), isotope effect alpha in Tc=A*M^(-alpha), isotope effect Superconductivity Float99 isoel isotope element isotope element Superconductivity String100 isorat exchange ratio of isotope(%) exchange ratio of isotope(%) Superconductivity String101 dtc DTC = Tc - Tc0 for isotope element DTC=Tc-Tc0 for isotope element Superconductivity Float102 vols volume fraction of Meissner effect(%) volume fraction of Meissner effect, unit=% Superconductivity Float103 uhc1 unit of Hc1 unit of Hc1 Superconductivity String104 mhc1 method of Hc1 derivationmethod of Hc1 derivation (1.magnetization, 2.acsusceptibility, 3.resistivity, 4.heat capacity, 5.tunneling,6.infrared spectroscopy, 7.thermal conductivity, 8.Ramanspectroscopy , 9.nuclear magnetic resonance, 10.surfaceimpedance, 11.neutron diffraction, 12.photoemissionspectroscopy, 13.microwave transmission, 14.Others)Superconductivity Integer105 hc1zero Hc1 at 0 K for poly crystal Hc1 at 0 K for poly crystal Superconductivity Float106 phc1zero Hc1 at 0 K for single crystal for H //ab-plane Hc1 at 0 K for single crystal for H //ab plane Superconductivity Float107 nhc1zero Hc1 at 0 K for single crystal for H //c-axis Hc1 at 0 K for single crystal for H //c-axis Superconductivity Float108 hc1t Hc1 at given temperature for poly crystal Hc1 at given temperature for poly crystal Superconductivity Float109 phc1tHc1 at given temperature for single crystalH//ab-planeHc1 at given temperature for single crystal H//ab-plane Superconductivity Float110 nhc1tHc1 at given temperature for single crystalH//c-axisHc1 at given temperature for single crystal H//c-axis Superconductivity Float111 tempc1 measuring temperature measuring temperature Superconductivity Float112 uhc2 unit of Hc2 unit of Hc2 Superconductivity String113 mhc2 method of Hc2 derivation method of Hc2 derivation Superconductivity String114 hc2zero Hc2 at 0 K for poly crystal Hc2 at 0 K for poly crystal Superconductivity Float115 phc2zero Hc2 at 0 K for single crystal for H //ab-plane Hc2 at 0 K for single crystal for H //ab plane Superconductivity Float116 nhc2zero Hc2 at 0 K for single crystal for H //c-axis Hc2 at 0 K for single crystal for H //c-axis Superconductivity Float117 hc2t Hc2 at given temperature for poly crystal Hc2 at given temperature for poly crystal Superconductivity Float118 phc2tHc2 at given temperature for single crystalH//ab-planeHc2 at given temperature for single crystal H//ab-plane Superconductivity Float119 nhc2tHc2 at given temperature for single crystalH//c-axisHc2 at given temperature for single crystal H//c-axis Superconductivity Float120 tempc2 measuring temperature measuring temperature Superconductivity Float7 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322   121 udhc2dt unit of dHc2/dT unit of dHc2/dT Superconductivity String122 mdhc2dt method of dHc2/dT derivationmethod of dHc2/dT derivation (1.magnetization, 2.acsusceptibility, 3.resistivity, 4.heat capacity, 5.tunneling,6.infrared spectroscopy, 7.thermal conductivity, 8.Ramanspectroscopy , 9.nuclear magnetic resonance, 10.surfaceimpedance, 11.neutron diffraction, 12.photoemissionspectroscopy, 13.microwave transmission, 14.Others)Superconductivity Integer123 dhc2dt -slope in Hc2 vs T at Tc for poly crystal #N/A #N/A124 pdhc2dt-slope in Hc2 vs T at Tc for single crystal for H//ab-plane-slope in Hc2 vs T at Tc for single crystal for H //ab plane Superconductivity Float125 ndhc2dt-slope in Hc2 vs T at Tc for single crystal for H//c-axis-slope in Hc2 vs T at Tc for single crystal for H //c-axis Superconductivity Float126 hirfig figure number for Hirr(T), irreversibility field figure number for Hirr(T), irreversibility field Superconductivity String127 mhirr difinition or method for Hirr difinition or method for Hirr Superconductivity String128 ucohere unit of COHERE unit of COHERE Superconductivity String129 mcohere method of COHERE derivation method of COHERE derivation Superconductivity String130 cohere coherence length at 0 K for poly crystal coherence length at 0 K for poly crystal Superconductivity Float131 pcoherecoherence length at 0 K for single crystal for H//ab-planecoherence length at 0 K for single crystal for H //ab plane Superconductivity Float132 ncoherecoherence length at 0 K for single crystal for H⊥ab-planecoherence length at 0 K for single crystal for H ⊥ab plane Superconductivity Float133 upenet unit of PENET unit of PENET Superconductivity String134 mpenet method of PENET derivation method of PENET derivation Superconductivity String135 penet penetration depth at 0 K for poly crystal penetration depth at 0 K for poly crystal Superconductivity Float136 ppenetpenetration depth at 0 K for single crystal for H//ab-planepenetration depth at 0 K for single crystal for H //ab plane Superconductivity Float137 npenetpenetration depth at 0 K for single crystal for H⊥ab-planepenetration depth at 0 K for single crystal for H⊥ab plane Superconductivity Float138 ugap unit of energy gap unit of energy gap Superconductivity String139 gap energy gap at 0 K , delta(0) energy gap at 0 K , delta(0) Superconductivity Float140 gapene normarized energy gap at 0 K , 2delta(0)/kTc normarized energy gap at 0 K , 2delta(0)/kTc Superconductivity Float141 gapmeth method of measuring energy gapmethod of measuring energy gap (1.tunneling, 2.infraredspectroscopy, 3.thermal conductivity, 4.Ramanspectroscopy , 5.AC susceptibility, 6.nuclear magneticresonance, 7.surface impedance, 8.neutron diffraction,9.ultraviolet photoemission spectroscopy, 10.microwavetransmission)Superconductivity Integer142 jche Jc at 4.2 K, H = 0 T Jc at 4.2K, H=0 T Superconductivity Double143 jc77 Jc at T = 77 K, H = 0 T Jc at T=77K,H=0T Superconductivity Double144 figjc figure number for Jc(T,H) figure number for Jc(T,H) Superconductivity String145 spheat graph number of specific heat graph number of specific heat Thermal property String146 ujump unit of SPJUMP unit of SPJUMP Thermal property String147 spjump specific heat jump at Tc (delta-C) specific heat jump at Tc (delta-C) Thermal property Float148 ugamma unit of GAMMA unit of GAMMA Thermal property Float149 gamma coefficient of electronic specific heat coefficient of electronic specific heat Thermal property Float150 gamcom comment for derivation of GAMMA comment for derivation of GAMMA Thermal property String151 debyet Debye temperature Debye temperature Thermal property Float152 mdebye method for derivation of Debye temperature method for derivation of Debye temperature Thermal property String153 uthc unit of thermal conductivity unit of thermal conductivity Thermal property String154 thc300 thermal conductivity at 300 K thermal conductivity at 300K Thermal property Float155 thc300nthermal conductivity at 300 K for heat flow//c-axisthermal conductivity at 300K for heat flow//c-axis Thermal property Float156 thc300pthermal conductivity at 300 K for heatflow//ab-planethermal conductivity at 300K for heat flow//ab-plane Thermal property Float157 thcfig graph number for thermal conductivity graph number for thermal conductivity Thermal property String158 utp unit of thermopower unit of thermopower Thermal property String159 tp300 thermopower at 300 K thermopower at 300K Thermal property Float160 tp300n thermopower at 300 K for normal to ab-plane thermopower at 300K for normal to ab-plane Thermal property Float161 tp300p thermopower at 300 K for parallel to ab-plane thermopower at 300K for parallel to ab-plane Thermal property Float162 tpfig graph number for thermopower graph number for thermopower Thermal property String163 ures unit of resistivity unit of resistivity Normal state property String164 reshe resistivity at 4.2 K for poly crystal resistivity at 4.2K for poly crystal Normal state property Float165 abresheresistivity at 4.2 K for single crystal for J//ab-planeresistivity at 4.2K for single crystal for J//ab plane Normal state property Float166 cresheresistivity at 4.2 K for single crystal for J//c-axisresistivity at 4.2K for single crystal for J//c-axis Normal state property Float167 res77 resistivity at 77 K for poly crystal resistivity at 77K for poly crystal Normal state property Float168 abres77resistivity at 77 K for single crystal for J//ab-planeresistivity at 77K for single crystal for J//ab plane Normal state property Float169 cres77 resistivity at 77 K for single crystal for J//c-axis resistivity at 77K for single crystal for J//c-axis Normal state property Float170 resn resistivity at normal-T for poly crystal resistivity at normal-T for poly crystal Normal state property Float8 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322    171 abresnresistivity at normal-T for single crystal forJ//ab-planeresistivity at normal-T for single crystal for J//ab plane Normal state property Float172 cresnresistivity at normal-T for single crystal forJ//c-axisresistivity at normal-T for single crystal for J//c-axis Normal state property Float173 nort normal temperature normal temperature Normal state property Float174 resrt resistivity at RT for poly crystal resistivity at RT for poly crystal Normal state property Float175 abresrtresistivity at RT for single crystal for J//ab-planeresistivity at RT for single crystal for J//ab plane Normal state property Float176 cresrt resistivity at RT for single crystal for J//c-axis resistivity at RT for single crystal for J//c-axis Normal state property Float177 uhall unit of RH300 unit of RH300 Normal state property String178 rh300 Hall coefficient at 300 K Hall coefficient at 300K Normal state property Double179 rh300n Hall coefficient at 300 K for single, H//c-axis Hall coefficient at 300K for single, H//c-axis Normal state property Double180 rh300pHall coefficient at 300 K for single, H//ab-planeHall coefficient at 300K for single, H//ab-plane Normal state property Double181 rhn Hall coefficient for single, H//c-axis Hall coefficient for single, H//c-axis Normal state property Double182 field magnetic field for Hall effect magnetic field for Hall effect Normal state property Float183 hallfig graph number for Hall coefficient graph number for Hall coefficient Normal state property String184 ucarr unit of carrier density unit of carrier density Normal state property String185 carrier carrier density at 300 K carrier density at 300K Normal state property Double186 rawmat raw materials raw materials Preparation String187 method *preparation method *preparation method (see the end of this table) Preparation Integer188 prepcmt preparation comments preparation process Preparation String189 f_prep preparation method for film preparation method for film Preparation String190 subst substrate substrate Preparation String191 target target material target material Preparation String192 pr_commt process comments String193 title title of reference String194 year publication year of reference year of reference Integer195 month month of reference Integer196 keyword keyword String197 institute institute String198 journal journal String199 sample sample String200 comments comments StringFor "187 method *preparation method"Method@ja Method@en粉末焼結 powder sintering method 1=powder sintering methodドクターブレード doctor blade method 2=doctor blade methodスクリーン印刷 screen printing metod 3=screen printing metod押しだし extrusion method 4=extrusion methodフラックス法 flux method 5=flux methodTSSG法 Top Seeded Solution Growth method 6=Top Seeded Solution Growth methodFZ法 floating zone method 7=floating zone methodLPE法 Liquid Phase epitaxy 8=Liquid Phase epitaxyメルトクエンチ法 melt-quench method 9=melt-quench methodブリッジマン法 Bridgeman 10=Bridgemanゾルゲル法 sol-gel method 11=sol-gel method有機酸塩法 organic acid base method 12=organic acid base methodサスペンジョン法 suspension method 13=suspension method塗布法 spray coating method 14=spray coating methodプラズマスプレー法plasma spray method 15=plasma spray methodｽﾊﾟｯﾀｰ蒸着 sputter deposition 16=sputter deposition蒸着法 vacuum deposition 17=vacuum depositionCVD法 CVD method 18=CVD methodMOCVD法 Metal-Organic Chemical Vapor Deposition 19=Metal-Organic Chemical Vapor DepositionVG法 Vapor Growth method 20=Vapor Growth methodMBE法 Molecular Beam Epitaxy method 21=Molecular Beam Epitaxy method9 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 Organic  10 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 List of data sources  As a rule, the list consists of the journal name (3 letters) + Vol number (3dig) + page (4dig). (Example, PHC1710181)   Symbol Journal nameADV Advanced MaterialsAPJ Jpn.J.Appl.Phys.APL Appl.Phys.Lett.APP Appl.Phys.CEM J.Solid State Chem.CRY CryogenicsCTR Ceramic TransactionEEE IEEE Transactions on MagneticsEPJ Eur. Phys. J BEPL Europhys.Lett.FEL FerroelectricsHPA Helvetica Phys.ActaJAC J.Alloys and CompoundJAP J.Appl.Phys.JCG J.Cryst. GrowthJET Sov. Phys.JETPJIM Materials TransactionsJJP Jpn.J.Appl.Phys.Lett.JMC J.Mater.Chem.JML J.Mater.Sci.Lett.JMP Int.J.Mod.Phys..BJMR J.Mater. Res.JMS J.Mater.Sci.JP J.Phys.:Cond.MatterJPC J.Phys.CJPD J.Phys.D: Appl.Phys.JPL J.Appl.Phys.Lett.JPM J.Phys. Conden. MaterJPS J.Phys.Soc.JapanJSC J.Solid State Chem.11 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322    JTL JETP Lett.LES J.Less-Common MetalsLTP J.Low Temp.Phys.MMM Journal of Magnetism and Magnetic MaterialsMPL Mod.Phys.Lett.BMRB Mater.Res.Bull.MTL Materials Letters (Mater.Lett.)NAT NatureNMT Nature[Materials]NUC Journal of Nuclear MaterialsPCS J.Phys.Chem.SolidsPHB Physica BPHC Physica CPHF J.Phys.FPLA Phys.Lett.APMB Philos.Mag.BPMM Phys.Met.MetallPRB Phys.Rev.BPRR Phys.Rev.ResearchPRX Phys.Rev.XPRL Phys.Rev.Lett.PRM Phys.Rev.MaterialsPSS Physica Stat.Solidi BRAD Radiation EffectsRMP Reviws of Modern Physics (Rev.Mod.Phys.)SCI ScienceSCR Scripta METALLURGICASPS Sov. Phys.Solid StateSSC Solid State Commun.SST Supercond.Sci.Technol.SUP J.SuperconductivitySUR Surface ScienceZMT Z.MetallkdeZPS Z.Phys.B12 * This guide was created accordingly at release of MDR SuperCon Datasheet Ver.240322 FIGURE/DATA Conventionally, SuperCon has published figure and table sets of systematic data for selected samples. This data sheet provides compressed files of the entire figures and text data of all of them in zip format, separately. For your reference, an example of a link to a figure provided in SuperCon (Figure 3(a), red frame) and the link site (Figure 3(b)) are shown below.  Figure 3(a) Example of link to figures and tables in SuperCon (for reference)   Figure 3(b) Example of Figure and Table Links in SuperCon (for reference) 93-figure number for Tc(p, x, etc)-tcfig in the data table indicates the corresponding file name.  2024/04/24