Kodate Kashiko | Physics Laboratory Japan Women's University
スポンサーリンク
概要
関連著者
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Kamiya Takeshi
Department Of Applied Physics Faculty Of Engineering University Of Tokyo:(present Address) Departmen
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Kodate Kashiko
Physics Laboratory Japan Women's University
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神谷 武志
東大工
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Okada Y
Sumitomo Heavy Ind. Ltd. Tokyo Jpn
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Okada Y
Institute Of Applied Physics. University Of Tsukuba
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Kodate K
Japan Women's Univ. Tokyo Jpn
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OKADA Yoshiko
Physics Laboratory, Japan Women's University
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Kamiya Takeshi
Department Of Gastroenterology And Metabolism Nagoya City University Graduate School Of Medical Scie
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神谷 武志
東京大学大学院電子工学専攻
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Klaus Werner
Department Of Electronic Engineering The University Of Tokyo
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Klaus Werner
Department Of Electronic Engineering University Of Tokyo
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OKABE Yoichi
Department of Electronic Engineering, Faculty of Engineering, University of Tokyo
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Katase Takayoshi
Aterials And Structures Laboratory Tokyo Institute Of Technology
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Tamura Hirotaka
Department Of Electrical And Electronics Engineering University Of Tokyo
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HASHIMOTO Nobuyuki
Technical Laboratory, Citizen Watch Co. Ltd.
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KODATE Kashiko
Physics Laboratory, Japan Women's University
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KAMIYAMA Hiroyuki
Department of Electronic Engineering, Univeristy of Tokyo
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Okabe Yoichi
Department Of Electronic Engineering Faculty Of Engineering University Of Tokyo
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Kamiya Takeshi
Department Of Electrical And Electronics Engineering University Of Tokyo
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TAKENAKA Haruko
Physics Laboratory, Japan Women's University
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CHEN Jing
Physics Laboratory, Japan Women's University
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Kamiyama Hiroyuki
Department Of Electronic Engineering University Of Tokyo
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Chen Jing
Physics Laboratory Japan Women's University
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Okabe Yoichi
Department Of Electrical And Electronics Engineering University Of Tokyo
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Hashimoto Nobuyuki
Technical Laboratory Citizen Watch Co. Ltd.
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Takenaka Haruko
Physics Laboratory Japan Women's University
著作論文
- Fast and Accurate Phase Retardation Measurement of 0° Twisted Nematic Liquid Crystal Panels Based on the Principle of Homodyne Receiving
- Deep Ultraviolet Lithography Masks Using Amorphous Silicon Films
- Fiber-Optic Pulse Delay Using Composite Zone Plates for Very Fast Optoelectronics : Waves, Optics and Quantum Electronics
- A Blazed Grating Fabricated by Synchrotron Radiation Lithography
- Focusing Characteristics of High-Efficiency Fresnel Zone Plate Fabricated by Deep Ultraviolet Lithography
- Multiple Beam Elements Using Linear Zone Plate Array Suitable for Parallel Optoelectronic Computing