Takeuchi Shigeki | Ries Hokkaido University:isir Osaka University
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概要
関連著者
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Takeuchi Shigeki
Ries Hokkaido University:isir Osaka University
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Takeuchi Shigeki
Hokkaido University:osaka University
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Fujiwara Masazumi
Ries Hokkaido University:isir Osaka University
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Zhao Hong-quan
Ries Hokkaido University:isir Osaka University
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Okamoto Ryo
Hokkaido University:osaka University
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Tanaka Akira
Hokkaido University:osaka University
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Kang Lin
Research Institute Of Superconductor Electronics (rise) Nanjing University
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Wu Peiheng
Research Institute Of Superconductor Electronics (rise) Nanjing University
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Chen Jian
Research Institute Of Superconductor Electronics (rise) Nanjing University
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Zhao Hong-Quan
RIES, Hokkaido University
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Fujiwara Masazumi
RIES, Hokkaido University
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Takeuchi Shigeki
RIES, Hokkaido University
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Subashchandran Shanthi
Hokkaido University:osaka University
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Chen Jian
Nanjing University
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Zhang Labao
Nanjing University
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Kang Lin
Nanjing University
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Wu Peiheng
Nanjing University
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Okano Masayuki
Hokkaido University:osaka University
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TANAKA Akira
Hokkaido Tokachi Area Regional Food Processing Technology Center
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Okano Masayuki
Hokkaido University
著作論文
- Phase shift spectra of a fiber-microsphere system at the single photon level
- Optical transmittance degradation in tapered fibers
- 25pPSB-51 Investigation of NV centers in diamond nano crystals by laser scanning confocal microscopy
- 21pPSB-50 Phonon Side Band Suppression in NV-Fluorescence Spectrum by Use of Substrate Effect
- 23pED-4 Development of superconducting nanowire single photon detection system for the evaluation of ultra broadband parametric fluorescence
- Suppression of fluorescence phonon sideband from nitrogen vacancy centers in diamond nanocrystals by substrate effect
- Coupling of ultrathin tapered fibers with high-Q microsphere resonators at cryogenic temperatures and observation of phase-shift transition from undercoupling to overcoupling
- Effect of Substrates on the Temperature Dependence of Fluorescence Spectra of Nitrogen Vacancy Centers in Diamond Nanocrystals (SELECTED TOPICS IN APPLIED PHYSICS : Diamond Semiconductors : from Materials to Devices)
- Noncollinear parametric fluorescence by chirped quasi-phase matching for monocycle temporal entanglement