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TODOROKI, Shin-ichi
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Photographs of deformed areas after fiber fuse ignition
Fiber fuse propagation (1st trial, overexposed)
Fiber fuse propagation and voids left behind (overexposed)
Fiber fuse propagation
Fiber fuse ignition
Fiber fuse propagation in unstable mode.
Animation of fiber fuse damage.
Original data for Fig.2.6(c), Unstable, in a NIMS Monograph titled "fiber fuse"
Original data for Fig.2.6(c), Unimodal mode, in a NIMS Monograph titled "fiber fu...
Original data for Fig.2.6(c), 3.1(a) and 3.4; Cylindorical mode, in a NIMS Monograph t...
Original data for Fig.2.6(a) and (b), Unstable mode, in a NIMS Monograph titled "...
Original data for Fig.2.6(a) and (b), Unimodal mode, in a NIMS Monograph titled "...
Original data for Fig.2.6(a) and (b), Cylindorical mode, in a NIMS Monograph titled &q...
Original data for Fig.3.8(a) and (b), bare fibers, in a NIMS Monograph titled "fi...
Original data for Fig.3.8(a), bare fibers immersed in water, in a NIMS Monograph title...
Original data for Fig.3.8(a), acrylate coated fibers, in a NIMS Monograph titled "...
Original data for Fig.3.8(a) and (b), bare fibers, in a NIMS Monograph titled "fi...
Original data for Fig.3.8(a), acrylate coated fibers, in a NIMS Monograph titled "...
Original data for Fig.3.8(b), bare fibers, in a NIMS Monograph titled "fiber fuse...
Original data for Fig.3.9, acrylate coated fibers, in a NIMS Monograph titled "fi...
Original data for Fig.3.9, bare fibers, in a NIMS Monograph titled "fiber fuse"
Fiber fuse damage in the optical fibers called LEAF, Corning
Fiber fuse damage in the optical fibers called TrueWave RS, OFS
Animation comparing void formation with/without self-pumping effect
Fiber fuse propagation over the splice point from HI 1060 to SMF-28e fibers.
Fiber fuse propagation over the splice point from SMF-28e to HI 1060 fibers
Fiber fuse ignition trials on a highly Co-doped borosilicate glass surface with 1480 n...
Ultra-slow fuse propagation in polymer optical fiber
Fiber fuse self-termination in unstable mode
Fiber fuse ignition and propagation.
Fiber fuse, a tiny commet
Animation of fiber fuse damage, demonstrating periodic void formation
Manuscript writing support system for researchers based on hypertext list of their ach...
How we pave the way of NIMS eSciDoc? --A user's opinion
Disseminate your work beyond your research field through self-archiving
ACTIVE SOFT GLASS meets PASSIVE OPTICAL FIBERS
Observation of Blowing Out in Low Loss Passive Optical Fuse Formed in Silica Glass Opt...
Multi-dimensional data management by virtual sample library written in object-oriented...
Optical fuse made of silica glass optical fibers spliced through low-melting glass wit...
Blog-based research notebook for personal knowledge management and bottom-up knowledge...
Combinatorial Fluorescence Lifetime Measuring System for Developing Er-Doped Transpare...
Optical fuse by carbon-coated TeO2 glass segment inserted in silica glass optical fibe...
Object-oriented virtual sample library: a container of multi-dimensional data for acqu...
Low loss optical coupling structure between two ends of silica glass optical fibers by...
Combinatorial evaluation system for thermal properties of glass materials using a vert...
Formation of optical coupling structure between two ends of silica glass optical fiber...
Two serendipitous episodes -- How I embarked on fiber fuse research
In-Situ Observation of Fiber-Fuse Propagation
Chance favors the prepared mind
Why do I self-archive my articles? Because my readers are there.
My joy of self-archiving
Merci, XieXie, Spasibo
PubMan and Imeji: Self-archiving platform for researchers' outreach activities
研究者個人のアウトリーチ活動を支援するセルフアーカイブ環境
白色タイトバッファ付き単一モード光ファイバにおけるファイバフューズ伝搬しきい値の減少
Fiber Fuse Propagation Behavior
ファイバヒューズの伝搬挙動
Formation of optical coupling structure between two ends of silica glass optical fiber...
IoT-powered remote sensing system and portable tools for real-time evaluation of strai...
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The history of DICE and NIMS Digital Library
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optical fiber
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fiber fuse
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tellurite glass
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Creative Commons BY-NC Attribution-NonCommercial 2.1 Japan
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Creative Commons BY-NC-ND Attribution-NonCommercial-NoDerivs 3.0 International
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experiments
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Material/Specimen
10/0226/261500
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10/0819/191200
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11/0128/280007, 11/0128/310015, 11/0128/030039, 11/0128/280004,, 10/1207/070007, 10/1207/070004, 10/1207/070002, 10/1207/070001, 10/1207/080025, 10/1130/060048
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14/0903/040001, 14/0903/040002, 14/0903/040004, 14/0903/030001, 14/0903/040006
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Creator
TODOROKI, Shin-ichi
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59
INOUE, Satoru
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MATSUMOTO, T.
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NUKUI, A.
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http://creativecommons.org/licenses/by-nc-nd/3.0/
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http://creativecommons.org/licenses/by-nd/3.0/
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Jpn. J. Appl. Phys.
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Appl. Surface Sci.
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Proceedings of SPIE
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Selected Topics on Optical Fiber Technology
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Ceramics Japan
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