山田 晃 | 東京農工大学生物システム応用科学研究科
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概要
関連著者
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山田 晃
東京農工大学生物システム応用科学研究科
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山田 晃
東京農工大学生物システム応用科学府
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Yamada Akira
Frontier Research Program The Institute Of Physical And Chemical Research (riken)
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山田 晃
農工大院
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KONAGAI Makoto
Tokyo Institute of Technology
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KONAGAI Makoto
Department of Physical Electronics, Tokyo Institute of Technology
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山田 晃
東京農工大学大学院生物システム応用科学研究科
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Yamada Akira
Biological Ict Group National Institute Of Information And Communications Technology
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Konagai Makoto
Department Of Electrical And Electronic Engineering. Tokyo Institute Of Technology
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山田 明
東京工業大学大学院理工学研究科電子物理工学専攻
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YAMADA Akira
Departments of Immunology, Kurume University School of Medicine
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Yamada Akira
Department Of Cardiology Aso-iizuka Hospital
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Konagai M
Tokyo Inst. Technol. Tokyo Jpn
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金 正順
東京農工大
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YAMADA Akira
Quantum Nanoelectronics Research Center, Tokyo Institute of Technology
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CHAISITSAK Sutichai
Department of Physical Electronics, Tokyo Institute of Technology
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西村 一郎
東京電機大
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李 海悦
東京農工大院生物シ応用
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YAMADA Akira
Research Center for Quantum Effect Electronics, Tokyo Institute of Technology
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OKAMOTO Tamotsu
Tokyo Institute of Technology
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Ohtsuka Tomohiko
Department Of Physical Electronics Tokyo Institute Of Technology
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山田 晃
農工大院生物シ応用
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Okamoto T
Keio Univ. Yokohama Jpn
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Okamoto Toshiyuki
Department Of Applied Science Faculty Of Engineering Kyushu University:(present Address)alps Denki C
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小川 眞広
日本大学医学部消化器肝臓内科
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地挽 隆夫
GE横河メディカルシステム
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YAGI Shuhei
Department of Physical Electronics, Tokyo Institute of Technology
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ABE Katsuya
Department of Physical Electronics, Tokyo Institute of Technology
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小笠原 正文
GEヘルスケア・ジャパン
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Maki Yoshio
Biological Ict Group National Institute Of Information And Communications Technology
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Yoshio Maki
情報通信研究機構未来ict研究センター
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Yoshio Maki
Biological Ict Group National Institute Of Information And Communications Technology
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Oiwa K
Himeji Inst. Tech. Hyogo Jpn
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Oiwa Kazuhiro
Department Of Life Science Graduate School Of Science University Of Hyogo:kansai Advenced Research C
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Abe K
Mitsubishi Materials Corporation Central Research Institute
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Yagi S
Department Of Physical Electronics Tokyo Institute Of Technology
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Abe Katsuya
Department Of Applied Chemistry Faculty Of Engineering Kogakuin University
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Oiwa Kazuhiro
Biological Ict Group National Institute Of Information And Communications Technology
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Matsubara Kazuo
Kobelco Research Institute Inc.
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鹿島 彩子
東京農工大学生物システム応用科学府
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矢野 智嗣
東京農工大学生物システム応用科学研究科
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Yagi Syuhei
Department Of Physical Electronics Tokyo Institute Of Technology
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吉田 哲也
東京農工大
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AMIN Nowshad
Department of Electrical and Electronic Engineering. Tokyo Institute of Technology
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OKABAYASHI Takashi
Department of Physical Electronics, Tokyo Institute of Technology
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SUGIYAMA Takeshi
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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SHIMIZU Akira
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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小川 眞広
日本大学医学部内科学
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小川 眞広
東京農工大学 生物システム応用科学府
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山田 晃
農工大・大学院BASE
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西村 一郎
東京電機大学 工学部 機械工学科
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Dairiki Koji
Department of Electrical & Electric Engineering, Tokyo Institute of Technology
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Miyamoto A
New Ind. Creation Hatchery Center Tohoku Univ.
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井上 幸一
東京農工大
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牧田 敬介
東京農工大学生物システム応用科学府
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Fons P
Optoelectronic Materials And Devices Group Photonics Research Institute National Institute Of Advanc
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Dairiki Koji
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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OKAMOTO Tamotsu
Research Center for Quantum Effect Electronics, Tokyo Institute of Technology
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Yagi Shuhei
Department Of Physical Electronics Tokyo Institute Of Technology
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後藤 康之
東京農工大学
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岸谷 康
東京農工大
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Tsutsui Yasutaka
Department Of Life Science Graduate School Of Science University Of Hyogo
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Yamada Akira
Kansai Advenced Research Center
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川本 幸一郎
農工大院生物シ応用
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山田 晃
農工大BASE
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植木 尊昭
農工大BASE
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Fons P
National Inst. Advanced Industrial Sci. And Technol. (aist) Ibaraki Jpn
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Fons Paul
Optoelectronic Materials And Devices Group Photonics Research Institute National Institute Of Advanc
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後藤 康之
東京農工大
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小笠原 正文
Geヘルスケアジャパン
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地挽 隆夫
Geヘルスケアジャパン
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Oshima Takayuki
Department Of Physical Electronics Tokyo Institute Of Technology
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長島 義和
東京農工大
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高田 祥伍
東京農工大院生物シ応用
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小川 眞広
駿河台日大病院消化器科
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小笠原 正文
GE横河メディカルシステム
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Kumagai M
National Research Institute For Metals
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三宅 達也
東京農工大学生物システム応用科学府
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ISHIHARA Hanae
Department of Physical Electronics, Tokyo Institute of Technology
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MURANO Masahiko
Department of Physical Electronics, Tokyo Institute of Technology
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TOKITA Yuuki
Department of Physical Electronics, Tokyo Institute of Technology
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MIYAZAKI Hisashi
Department of Physical Electronics, Tokyo Institute of Technology
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MIKAMI Rui
Department of Physical Electronics, Tokyo Institute of Technology
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YONEYAMA Yuichi
Department of Physical Electronics, Tokyo Institute of Technology
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KOBAYASHI Kensaku
Course of Electrical Engineering, Tokai University
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SANDHU Adarsh
Department of Electrical and Electronic Engineering, Tokai University
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YAMADA Akira
Tokyo Institute of Technology
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OKAMOTO Tamotsu
Department of Physical Electronics, Tokyo Institute of Technology
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YAGI Syuhei
Department of Physical Electronics, Tokyo Institute of Technology
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KUDRIAVTSV Yuriy
Electrical Engineering Department, Center for Research and Advanced Studies
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GODINES Antonio
Electrical Engineering Department, Center for Research and Advanced Studies
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VILLEGAS Antonio
Electrical Engineering Department, Center for Research and Advanced Studies
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ASOMOZA Rene
Electrical Engineering Department, Center for Research and Advanced Studies
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ICHIKAWA Mitsuru
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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TSUSIMA Takeshi
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Maruyama Seitaro
First Department Of Internal Medicine Niigata University School Of Medicine
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Sang Baosheng
Department of Electrical & Electric Engineering, Tokyo Institute of Technology
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Kawasaki M
Institute For Materials Research (imr) Tohoku University
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Endou Akira
Department of Applied Chemistry, Graduate School of Engineering, Tohoku University
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Takaba Hiromitsu
Department of Chemical Engineering, Graduate School of Engineering, Tohoku University
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MIYAMOTO Akira
Department of Applied Chemistry, Graduate School of Engineering, Tohoku University
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地挽 隆夫
GEヘルスケア・ジャパン
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田村 美希
農工大院生物シ応用科
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Kubo Momoji
Department Of Molecular Chemistry And Engineering Tohoku University
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Kubo Momoji
Department Of Applied Chemistry Graduate School Of Engineering Tohoku University
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Endou Akira
Dep. Of Applied Chemistry Graduate School Of Engineering Tohoku Univ.
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Takeuchi K
Riken (the Institute Of Physical And Chemical Research)
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SAITO Koki
Department of Electronics and Information Science, Teikyo University of Science and Technology
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Isaka Takayuki
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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Sato K
Asahi Glass Co. Ltd. Yokohama Jpn
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Shibata H
Toshiba Corp. Yokohama Jpn
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Oiwa Kazuhiro
Biological Ict Grp Kobe Adv Ict Res Ctr Nict
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中山 博之
東京農工大学
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Sato K
Depertment Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Takaba Hiromitsu
Department Of Applied Chemistry Graduate School Of Engineering Tohoku University
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Saito K
Department Of Materials Technology Chiba University
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Sato K
Faculty Of Applied Biological Science Hiroshima University
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Zhao Y
Nankai Univ. Tianjin Chn
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Zhao Ying
Department Of Cardiology Anzhen Hospital Capital Medical University
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MISU Koichiro
Mitsubishi Electric Corporation
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KITAMOTO Shinji
Department of Physical Electronics, Tokyo Institute of Technology
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FONS Paul
Electrotechnical Laboratory
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YAMADA Akimasa
Electrotechnical Laboratory
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NIKI Shigeru
Electrotechnical Laboratory
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猿田 倫之
東京農工大学生物システム応用科学府
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春田 航
東京農工大学生物システム応用科学研究科
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伊東 正安
東京電機大学大学院理工学研究科情報科学専攻
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矢野 智嗣
農工大・大学院BASE
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田渕 周作
東京農工大
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井上 涼子
東京農工大学
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TANABE Tetsuhiro
Optical Device Research and Development Division, Rohm Company Limited
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Yoshio Maki
Kansai Advenced Research Center
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Tsutsui Yasutaka
Dept. Life Sci., Himeji Inst. Tech.
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Maki Yoshio
Dept. Life Sci., Himeji Inst. Tech.
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Oiwa Kazuhiro
Dept. Life Sci., Himeji Inst. Tech.
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高田 祥伍
農工大院生物シ応用
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李 海悦
農工大院生物シ応用
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和田 理生
農工大院生物シ応用
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西村 一郎
東京電大工
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内田 充高
農工大院
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八頭司 庸介
農工大BASE
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李 海悦
農工大BASE
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三ッ谷 建志
東京農工大BASE
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畑添 雅文
東京農工大
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植木 尊昭
東京農工大
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山本 伊智郎
東京電機大
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KUBO Momoji
Graduate School of Engineering, Tohoku University
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MIYAMOTO Akira
Graduate School of Engineering, Tohoku University
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Fons Paul
Photonics Research Institute National Institute Of Advanced Industrial Science And Technology
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NAKAHARA Ken
Optical Devices R&D Center, ROHM Co., Ltd.
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TAKASU Hidemi
Optical Devices R&D Center, ROHM Co., Ltd.
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YAMADA Akimasa
National Institute of Advanced Industrial and Science Technology
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SAKURAI Keiichiro
National Institute of Advanced Industrial and Science Technology
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MATSUBARA Koji
National Institute of Advanced Industrial and Science Technology
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NIKI Shigeru
National Institute of Advanced Industrial and Science Technology
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CHICHIBU Shigefusa
Institute of Applied Physics, University of Tsukuba
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SOTA Takayuki
Department of Electrical, Electronics, and Computer Engineering, Waseda University
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IWATA Kakuya
Photonic Research Institute, National Institute of Advance Industrial Science & Technology (AIST)
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YAMADA Akimasa
Photonic Research Institute, National Institute of Advance Industrial Science & Technology (AIST)
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MATSUBARA Koji
Photonic Research Institute, National Institute of Advance Industrial Science & Technology (AIST)
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NIKI Shigeru
Photonic Research Institute, National Institute of Advance Industrial Science & Technology (AIST)
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IWATA Kakuya
Electrotechnical Laboratory
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MATSUBARA Koji
Electrotechnical Laboratory
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HUNGER Ralf
Electrotechnical Laboratory
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Takami S
Corporate Manufacturing Engineering Center Toshiba Corporation
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Kawasaki Masashi
Department Of Applied Biological Science Tokyo Noko University
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NAKAMURA Satoshi
Tokyo Medical and Dental University
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Sato Kuninori
Institute For Fusion Science
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Takeuchi K
Greduate School Of Science And Engineering Saitama University:riken (the Institute Of Physical And C
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NAKAMURA Kazutaka
Materials and Structures Laboratory, Tokyo Institute of Technology
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Nakahara Ken
Interdisciplinary Devices R&d Center Rohm Co. Ltd.
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Takasu Hidemi
Device Technology Div. Semiconductor Research And Development Headquarters Rohm Co. Ltd.
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Sato K
National Defense Acad. Yokosuka Jpn
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Minagawa Shiroh
Division Of Cardiology Niigata University Graduate School Of Medical And Dental Sciences
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Sato K
Department Of Electronics And Information Science Teikyo University Of Science And Technology
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Sota Takayuki
Department Of Electrical Electronics And Computer Engineering Waseda University
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TAKAMI Seiichi
Graduate School of Engineering, Tohoku University
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Okamoto Tamotsu
Department Of Electrical And Electronics Engineering Chiba University
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Ishida M
Sii Nanotechnology Inc.
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SHIBATA Hajime
National Institute of Advanced Industrial Science and Technology
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Shibata H
Electrotechnical Lab. Ibaraki Jpn
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Sandhu Adarsh
Department Of Electrical And Electronic Engineering Tokai University
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YAMADA Aruba
Department of Materials Chemistry, Graduate School of Engineering, Tohoku University
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TERAISHI Kazuo
Department of Materials Chemistry, Graduate School of Engineering, Tohoku University
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NAKAMURA Kazutaka
National Research Institute for Metals
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lSHIOKA Kunie
National Research Institute for Metals
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KITAJIMA Masahiro
National Research Institute for Metals
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Miyajima Seiichi
Division Of Internal Medicine Niigata Minami Hospital
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YAMADA Akira
Graduate School of Bio-Applications & Systems Engineering, Tokyo University of Agriculture and Techn
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Kim Jung-soon
Graduate School Of Bio-appiications & Systems Engineering Tokyo University Of Agriculture And Te
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Shibata Hiroyuki
Ntt Basic Research Laboratories
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Ichikawa Masakazu
Joint Research Center For Atom Technology
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Ichikawa Masakazu
Joint Research Center For Atom Technology Angstrom Technology Partnership
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Ichikawa Masakazu
Joint Research Center For Atom Technology Angstrom Technology Partnership (jrcat-atp) C
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Kudriavtsv Yuriy
Electrical Engineering Department Center For Research And Advanced Studies
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Ichikawa Mitsuru
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Isaka Takayuki
Department Of Electrical And Electronic Engineering Tokyo Institute Of Technology
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Miyazaki Hisashi
Department Of Applied Physics Osaka City University
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Konagai Makoto
Tokyo Inst. Technol. Tokyo Jpn
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Miyamoto Akira
Department Of Applied Chemistry Graduate School Of Engineering Tohoku University
著作論文
- 超音波血流映像からの肝硬変病変の特徴抽出(医用超音波,アコースティックイメージング,一般)
- Growth of Strain-Relaxed Si_C_y Films with Compositionally Graded Buffer Layers by Gas Source Molecular Beam Epitaxy
- Novel In(OH)_3:Zn^ Buffer Layer for Cu(InGa)Se_2 Based Solar Cells
- Effect of ZnTe and CdZnTe Alloys at the Back Contact of 1-μm-Thick CdTe Thin Film Solar Cells
- Phosphorous Doping of Strain-Induced Si_C_y Epitaxial Films Grown by Low-Temperature Chemical Vapor Deposition
- Preferred Orientation Control of Cu(In_Ga_x)Se_2 (x≈0.28) Thin Films and Its Influence on Solar Cell Characteristics
- Effect of CdCl_2 Treatment Conditions and Stoichiometry on The Deep Level, Carrier Lifetime and Converstion Efficiency of CdTe Thin Film Solar Cells
- P-Doping into Strain-Induced Si_C_y Epitaxial Films Grown by Low Temperature Chemical Vapor Deposition
- Epitaxial Growth of Si_C_y Film by Low Temperature Chemical vapor Deposition
- Formation of pn Homojunction in Cu(InGa)Se_2 Thin Film Solar Cells by Zn Doping
- Amorphous-to-Polycrystalline Silicon Transition in Hot Wire Cell Method
- Improvement of the Electrochemical Profiling Technique of Carrier Concentration in Cu(InGa)Se_2 Thin Film Solar Cells
- High-Efficiency Amorphous Silicon Solar Cells with ZnO as Front Contact
- Improvement of Stabilized Efficiency of Amorphous Silicon Solar Cell by SiH_2Cl_2 Addition
- US2010-17 超音波B-Flow血流映像からの肝硬変疾患の特徴量抽出(医用超音波,アコースティックイメージング,一般)
- Characterization of Highly Efficient CdTe Thin Film Solar Cells by the Capacitance-Voltage Profiling Technique
- Improvement in Performances of ZnO : B/i-ZnO/Cu(InGa)Se_2 Solar Cells by Surface Treatments for Cu(InGa)Se_2
- Electrical and Structural Characterizations of Cu(InGa)Se_2 Thin Films Using Electrochemical Capacitance-Voltage Method and Focused-Ion Beam Process
- Cu(InGa)Se_2 Thin-film Solar Cells with High Resistivity ZnO Buffer Layers Deposited by Atomic Layer Deposition
- Prospects of Thickness Reduction of the CdTe Layer in Highly Efficient CdTe Solar Cells Towards 1 μm
- Native Defect Control of CdTe Thin Film Solar Cells by Close-Spaced Sublimation
- 音波CT法による樹木断面音速の映像化 : 年輪による音速異方性の影響評価(一般/アコースティックイメージング)
- 音波CT法による樹木断面音速映像の性能評価(音響・超音波サブソサイエティ合同研究会)
- P3-42 音波CT法による樹木断面音速分布の映像化(ポスターセッション3(概要講演))
- 少数の送受信素子で構成した頸動脈診断用超音波反射率CT
- 照射角制限性能の高い透過型超音波逆散乱CT (特集 目覚ましい医用超音波技術の進展)
- 内部エコーによる診断情報の抽出(アコースティックイメージング・一般)
- リニアアレイ超音波逆散乱CTの実環境シミュレーション評価
- P3-J-55 照射角制限性能の高い透過型超音波逆散乱CT(医用超音波,ポスターセッション3(概要講演))
- 照射角に制限のある超音波逆散乱CT(アコースティックイメージ)
- 共役勾配法を用いた送受信器の数が制限された条件下での超音波反射率CT
- 反射透過型超音波CT装置の小型化
- Q&Aコーナー(コーヒーブレーク)
- P3-21 疎アレイ準3次元超音波逆散乱CT(ポスターセッション3,ポスター発表)
- P3-20 円弧上アレイエレメントを用いた反射透過型逆散乱CT(ポスターセッション3,ポスター発表)
- 疎アレイセンサを用いた準3次元超音波逆散乱CT
- 円弧上観測型超音波減衰率CTの再現性能向上
- 脳内超音波CTのための逆散乱画像再構成法
- レーザドップラ振動計を用いたCT計測
- 2P-18 符号変調音波の多チャンネル送受信による渦風速場のトモグラフィ計測(ポスターセッション)
- 1Pb-18 超音波相関法による開水路流量計測の評価実験(ポスターセッション)
- TWITCHIN OF STRIATED ADDUCTOR MUSCLES OF BIVALVES REGULATES 'CATCH' INTERACTION BETWEEN ACTIN AND MYOSIN FILAMENTS(Cell Biology and Morphology,Abstracts of papers presented at the 75^ Annual Meeting of the Zoological Society of Japan)
- IN VITRO RECONSTITUTION OF THE CATCH STATE USING MYOFILAMENTS FROM BIVALVE OBLIQUELY STRIATED MUSCLE(Cell Biology and Morphology,Abstracts of papers presented at the 74^ Annual Meeting of the Zoological Society of Japan)
- 2P2-11 符号変調波を用いた並列同時送受信風速トモグラフィ(ポスターセッション)
- 1P2-17 超音波トモグラフィ法による内臓脂肪面積測定の精度検証(ポスターセッション)
- 1P2-13 相関法を用いた排水管用超音波流量計測(ポスターセッション)
- 3P2b-3 直角四方向観測型超音波逆散乱トモグラフィ(ポスターセッション)
- 3P2b-2 超音波CT法による内臓脂肪測定のファントム評価実験(ポスターセッション)
- 3-03-04 超音波トモグラフィによる内臓脂肪測定の性能評価(波動伝搬・可視化技術)
- 2-03P-18 音波トモグラフィによる渦の風速場の時空間変動の映像化(ポスターセッション 2)
- P3-41 前方及び後方散乱波を同時に用いた超音波逆散乱CT法(ポスターセッション3(概要講演))
- P1-25 高推力超音波リニアモータの開発に向けたボルト締め複合振動子の振動モード解析(ポスターセッション1(概要講演))
- Twin Formation in Cu-Ga-Se Films Grown by Molecular Beam Epitaxy under Ga-Excess Conditions (Proceedings of the 12th International Conference on Ternary and Multinary Compounds ICTMC-12)
- Observation of Exciton-Polariton Emissions from a ZnO Epitaxial Film on the a-Face of Sapphire Grown by Radical-Source Molecular-Beam-Epitaxy : Optical Properties of Condensed Matter
- Growth of Undoped ZnO Films with Improved Electrical Properties by Radical Source Molecular Beam Epitaxy
- Tight-Binding Molecular Dynamics Study of Hydrogen Molecule Inside Silicon Crystal
- ア***ロープを用いた組織超音波CTの評価実験
- 医療用ア***ローブを用いた超音波定量CT計測
- 1P269 Single binding unit of the 'catch' reconstituted in vitro with myosin and twitchin purified from bivalve adductor muscle(9. Molecular motor (I),Poster Session,Abstract,Meeting Program of EABS & BSJ 2006)
- Characterization of Undoped, N- and P-Type Hydrogenated Nanocrystalline Silicon Carbide Films Deposited by Hot-Wire Chemical Vapor Deposition at Low Temperatures
- Preparation of Hydrogenated Amorphous Silicon Carbon Nitride Films by Hot-Wire Chemical Vapor Deposition Using Hexamethyldisilazane for Silicon Solar Cell Applications
- Fabrication of Microcrystalline Cubic Silicon Carbide/Crystalline Silicon Heterojunction Solar Cell by Hot Wire Chemical Vapor Deposition
- Preparation of Nanocrystalline Silicon in Amorphous Silicon Carbide Matrix
- Low-Temperature Deposition of Highly Conductive n-Type Hydrogenated Nanocrystalline Cubic SiC Films for Solar Cell Applications
- TiO_2-Coated Transparent Conductive Oxide (SnO_2:F) Films Prepared by Atmospheric Pressure Chemical Vapor Deposition with High Durability against Atomic Hydrogen
- Microcrystalline Silicon Films and Solar Cells Prepared by Photochemical Vapor Deposition on Textured SnO_2 with High Haze Factors
- 多周波の反射透過型観測データに基づいた超音波逆散乱画像再構成(超音波医用論文)
- P1-47 観測角に制限のある多周波の反射透過型観測データに基づいた逆散乱画像再構成(ポスターセッション1,ポスター発表)
- 多周波数の反射透過型観測データに基づいた逆散乱画像再構成
- RK18 観測角に制限のある送受信分離角固定型反射透過観測データに基づいた逆散乱画像再構成(ポスターセッションIII)
- 観測角に制限のある反射透過型観測データに基づいた逆散乱画像再構成
- 送受信分離角を固定した反射透過型観測データに基づいた逆錯乱画像再構成
- PG-10 鏡像の原理に基づいた反射透過型逆散乱画像再構成
- 半周囲上の反射透過型の観測データに基づいた逆散乱画像再構成
- 半周囲上の反射透過型の観測データに基づいた逆散乱画像再構成
- High Quality Aluminum Oxide Passivation Layer for Crystalline Silicon Solar Cells Deposited by Parallel-Plate Plasma-Enhanced Chemical Vapor Deposition
- Progress in the Efficiency of Wide-Gap Cu(In_Ga_x)Se_2 Solar Cells Using CIGSe Layers Grown in Water Vapor
- P3-25 体内音速映像のための低周波透過ビーム計算機トモグラフィ(ポスターセッション3(概要講演))
- 透過ビームモデルに基づいた組織音速CT(アコースティックイメージング・一般)
- 動脈動画像のための超音波反射率CT
- Piezoelectric Properties of La-Doped PbTiO_3 Films for RF Resonators
- 耳介を設けた頭部モデル音源方位センサ
- レーザドップラ計測法による水中非線形収束音場測定(アコースティックイメージ)
- レーザドップラ振動計を用いた非線形収束音場計測
- Inverse Scattering Image Reconstruction from Reflection and Transmission Data Obtained Using the Mirror Image Theory
- 頭部モデルに基づいた音源定位センサ
- レーザドップラ振動計を用いたガウスビーム収束音場計測
- レーザドップラ振動計を用いたMHz帯水中音場計測
- P1-48 頚動脈画像診断のための超音波反射率CT装置の性能評価(ポスターセッション1,ポスター発表)
- 疎アレイ準3次元超音波逆散乱CT
- 逆散乱CTのための組織散乱音場の数値差分解析
- レーザドップラ振動計を用いた水中音場計測法の性能評価試験
- Ab Initio Study for Si-H Bond Vibration on the Surface of Silicon Vacancy
- びまん性肝疾患診断のためのB-Flow血流抽出処理(医用超音波,アコースティックイメージング,一般)
- 頚動脈画像診断のための超音波反射率CT
- 2Pa2-10 平行アレイ間符号変調音波送受信による渦風速場のトモグラフィ計測(ポスターセッション)
- 2Pa2-3 横方向エコー観測に基づいた超音波開水路流速計測(ポスターセッション)
- 2Pa5-9 音波トモグラフィ内蔵脂肪検査のための体表密着走査機構の検討(ポスターセッション)
- RK04 円周上のデータ観測による透過型超音波逆散乱CT(ポスターセッションIII)
- 円周上のデータ観測による透過型超音波逆散乱CT
- 風速トモグラフィ法による渦風速場の準リアルタイム観測システム
- 1P2-6 横方向超音波エコー観測に基づいた開水路流速分布測定(ポスターセッション)
- 1P2-9 平行アレイ間符号変調音波送受信による渦風速場のリアルタイム監視(ポスターセッション)
- 1P5-9 超音波トモグラフィ内蔵脂肪測定のための腹部メカニカルスキャナ(ポスターセッション)
- 補間計算による準3次元超音波逆散乱CTのデータ収集量の削減
- CT手法の最新動向
- 超音波逆散乱CT法による3次元音速画像の性能評価実験