Kumagai Hirohiko | Asahi Glass Co. Ltd Research Center
スポンサーリンク
概要
関連著者
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Kumagai Hirohiko
Asahi Glass Co. Ltd Research Center
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Saito Yukinori
Department of Molecular Signaling, Interdisciplinary Graduate School of Medicine and Engineering, Un
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Saito Y
Faculty Of Engineering Yamanashi University
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Saito Yukinori
Department Of Electrical Engineering Yamanashi University
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Suganomata Shinji
Electrical Engineering Yananashi University
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Suganomata Shinji
Department Of Electrical Engineering Yamanashi University
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Suganomata Shinji
Faculty Engineering Yamanashi University
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Kumagai Hideo
Department of Electrical Engineering, Yamanashi University
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Suganomata S
Faculty Of Engineering Yamanashi University
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Suganomata Shinji
Department Of Electric Engineering Faculty Of Engineering Yamanashi University
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Hirano M
Frontier Research Center Tokyo Institute Of Technology:erato-sorst Jst Frontier Research Center Toky
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Hirano M
Transparent Electro-active Materials Project Erato-sorst Japan Science And Technology Agency C/o Fro
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Hirano Masahiro
Frontier Collaborative Research Center Tokyo Institute Of Technology
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Sasaki Shinya
Faculty Of Engineering Yamanashi University
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Hirano Masahiro
Frontier Research Center Tokyo Institute Of Technology:erato-sort Jst In Frontier Research Center To
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Hou W
Optical Crystal Laboratory Department Of Electrical Engineering National University Of Singapore
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Hirano M
Asahi Glass Co. Ltd Research Center
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HOU Wei
Optical Crystal Laboratory, Department of Electrical Engineering, National University of Singapore
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CHONG Tow
Optical Crystal Laboratory, Department of Electrical Engineering, National University of Singapore
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KUMAGAI Hirohiko
Asahi Glass Co., Ltd, Research Center
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HIRANO Masahiro
Asahi Glass Co., Ltd, Research Center
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Chong Tow
Optical Crystal Laboratory Department Of Electrical Engineering National University Of Singapore
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Hirano Masahiro
Solution-oriented Research For Science And Technology (erato-sorst) Japan Science And Technology Age
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Hirano Masahiro
Transparent Electro-active Materials Project Erato-sorst Japan Science And Technology Agency
著作論文
- Theoretical Analysis of Effect of Domain Inversion Shape on Second Harmonic Generation Conversion Efficiencies of Quasi-Phase-Matched Nonlinear Optical Waveguide Devices
- Coloration of Sapphire by Metal-Ion Implantation
- Coloration of Quartz by Metal-Jon Implantation