Koide Yasuo | National Institute Of Materials Science
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概要
関連著者
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Koide Yasuo
National Institute Of Materials Science
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NOMURA Tsuyoshi
Toyota Central R & D Laboratories, Inc.
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SATO Kazuo
Toyota Central R & D Laboratories, Inc.
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Ikeda N
National Institute For Materials Science
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IKEDA Naoki
National Institute for Material Science (NIMS)
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Fujikawa Hisayoshi
Toyota Central R&d Labs. Inc.
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MIURA Atsushi
Toyota Central Research & Development Labs., Inc.
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Nomura Tsuyoshi
Toyota Central R&d Labs. Inc.
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Sato Kazuo
Toyota Central R&d Labs. Inc.
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SUGIMOTO Yoshimasa
National Institute for Materials Science
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INOUE Daisuke
Toyota Central Research & Development Laboratories Inc.
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TSUYA Daiju
National Institute for Materials Science (NIMS)
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Inoue Daisuke
Toyota Central R&d Labs. Inc.
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Sugimoto Yoshimasa
National Institute For Materials Science (nims)
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Koide Yasuo
National Institute For Materials Science (nims)
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Miura Atsushi
Toyota Central R&d Labs. Inc.
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Fujikawa Hisayoshi
TOYOTA Central R&D Laboratories, Inc., Nagakute, Aichi 480-1192, Japan
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松井 崇行
東北大多元研
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松井 崇行
(株)豊田中央研究所
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Kono Shozo
Institute Of Multidisciplinary Research For Advanced Materials Tohoku University
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MATSUI Takayuki
Toyota Central R&D, Inc.
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ASAKAWA Kiyoshi
University of Tsukuba, Center for TARA
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Watanabe Y
National Institute Of Advanced Research Association
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Asakawa K
Femtosecond Technol. Res. Assoc. (festa) Tsukuba Jpn
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Ozaki Nobuhiko
Center For Tsukuba Advanced Research Alliance (tara) University Of Tsukuba
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Ohkouchi Shunsuke
Center For Tsukuba Advanced Research Alliance (tara) University Of Tsukuba
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Watanabe Yoshinori
National Institute Of Advanced Industrial Science And Technology (aist)
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OCHIAI Masayuki
National Institute for Materials Science
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TSUYA Daijyu
National Institute for Materials Science
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OZAKI Nobuhiko
Wakayama University
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OHKOUCHI Shunsuke
NEC Corporation
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Asakawa Kiyoshi
University Of Tsukuba
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Matsui Takayuki
Toyota Central R&d Labs. Inc.
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松井 崇行
Toyota Central R&D Labs., Inc.
著作論文
- Simulation of Band Diagram for Chemical-Vapor-Deposition Diamond Surface Conductivity
- Color Filter Based on Surface Plasmon Resonance Utilizing Sub-Micron Periodic Hole Array in Aluminum Thin Film
- Nanophotonics Based on Semiconductor-Photonic Crystal/Quantum Dot and Metal-/Semiconductor-Plasmonics