Nakamura K | Department Of Electrical Engineering School Of Engineering Nagoya University
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概要
関連著者
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中村 僖良
東北大学大学院工学研究科
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中村 僖良
東北大院・工
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Kawamura Ichiro
Central Research And Development Laboratory Showa Shell Sekiyu K.k.
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Yamada Kazushi
Department Of Polymer Science And Engineering Kyoto Institute Of Technology
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Nakamura Kohji
Display Device Research And Development Department Nippondenso Co. Ltd.
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Nakamura K
Display Device Research And Development Department Nippondenso Co. Ltd.
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山田 顕
東北学院大 工
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Nakamura Keiji
Department Of Electrical Engineering School Of Engineering Nagoya University
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Yamada Kohji
NTT Atsugi Electrical Communication Laboratories
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UEHA Sadayuki
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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Nakamura Kentaro
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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中村 圭二
中部大学
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山田 顕
東北大院・工
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山田 顕
東北大学大学院工学研究科
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中村 僖良
東北大・工
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石川 賢司
静大電子研
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竹添 秀男
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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TAKEZOE Hideo
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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ISHIKAWA Ken
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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Ishikawa K
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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YOSIDA Kei
Department of Physics, Science University of Tokyo
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石川 賢司
Shinshu Univ. Nagano Jpn
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石川 賢司
四日市大学総合政策学部
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Yamada K
Meijo Univ. Nagoya Jpn
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Takezoe Hideo
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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斎藤 繁実
東海大学海洋学部
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本郷 哲
仙台高等専門学校情報デザイン学科
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山崎 大輔
東大 大学院工学系研究科
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川村 佳子
東北大院・工
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斎藤 繁実
東海大・海洋
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山崎 大輔
東北大院・工
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上羽 貞行
東京工業大学精密工学研究所
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中村 僖良
東北大学工学部通信工学科
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竹添 秀男
東工大・工
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北爪 秀憲
東北大学大学院工学研究科
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庄子 竜也
東北大院・工
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竹添 秀男
東京工業大学工学部
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Umeda M
Department Of Electronic Control Engineering Nagaoka National College Of Technology
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Umeda Masato
Department Of Functional Materials Science Saitama University
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大崎 正弘
東北大院・工
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Nakamura Keiji
Department Of Electrical Electronics And Information Engineering Graduate School Of Engineering Osak
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小池 隆
東北大学工学部通信工学科
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上羽 貞行
東工大精研
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TAKANISHI Yoichi
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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Takanishi Y
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Takanishi Yoichi
Tokyo Inst. Of Technol. Tokyo Jpn
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Takanishi Yoichi
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Egawa Takashi
Research Center For Nano-device And System Nagoya Institute Of Technology
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Sugai Hideo
Department Of Electrical Engineering School Of Engineering Nagoya Univeristy
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Mizutani Teruyoshi
Depertment Of Electrical Engineering Nagoya University
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MORI Takehiko
Department of Organic and Polymeric Materials, Graduate School of Science and Engineering, Tokyo Ins
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Nakamura Keiji
Department of Electrical Engineering, Nagoya University
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Sugai Hideo
Department of Electrical Engineering, Nagoya University
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EGAWA Takashi
Research center for Nano-Device and System, Nagoya Institute of Technology
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Mori T
Tokyo Inst. Technol. Tokyo Jpn
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NAKAMURA Kouichi
Department of Morphological Brain Science, Graduate School of Medicine, Kyoto University
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Umeno M
Department Of Electronic Engineering Chubu University
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Umeno Masayoshi
Department Of Electric And Computer Engineering Nagoya Institute Of Technology
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Mori T
Department Of Organic And Polymeric Materials Graduate School Of Science And Engineering Tokyo Insut
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Mori Takehiko
Department Of Organic And Polymeric Materials Graduate School Of Science And Engineering Tokyo Insti
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森 竜雄
Nagoya Univ. Aichi Jpn
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Mori Tatsuo
Department Of Electrical Engineering School Of Engineering Nagoya University
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Mori Tatsuo
Ibaraki National College Of Technology
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Mizutani Teruyoshi
Department Of Electrical Engineering School Of Engineering Nagoya University
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WADA HIROSHI
Department of Surgery, Graduate School of Medicine, Osaka University
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UMENO Masayoshi
Department of electrical and Computer Engineering, Nagoya Institute of Technology
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Ohtani Keisuke
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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庄子 竜也
東北大学大学院工学研究科
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JIMBO Takashi
Department of Environmental Technology & Urban Planning, Nagoya Institute of Technology
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Umeno Masayoshi
Department Of Electronic Mechanical Engineering Nagoya University
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ISHIKAWA Hiroyasu
Research Center for Nano-Device and System, Nagaya Institute of Technology
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Wada Hiroshi
Department Of Cardiovascular Science And Medicine Chiba University Graduate School Of Medicine
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Umeno M
Fukui Univ. Technol. Fukui Jpn
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Takata Masaki
Jasri Spring-8
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Jimbo Takashi
Department Of Electrical And Computer Engineering Nagoya Institute Of Technology
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Horiuchi Kenji
Product Dev. Dep. Tokyo Gas Co. Ltd.
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SUZUKI Keiji
Department of Molecular Medicine, Nagasaki University Graduate School of Biomedical Sciences
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伊藤 敏明
(株)東芝電力・社会システム社
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伊藤 敏明
(株)東芝
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YOSHIDA Kenji
Department of Electronic Information Systems, Shibaura Institute of Technology
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渡辺 順次
東京工業大学 大学院理工学研究科 有機・高分子物質専攻
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吉田 起國
京大原子エネルギー研
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BANDO Yoshimasa
Department of Organic and Polymeric Materials, Graduate School of Science and Engineering, Tokyo Ins
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Kokura Hikaru
Department of Electrical Engineering, Nagoya University
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佐藤 道雄
東芝
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Watanabe Junji
Department of Cardiology, Yokkaichi Municipal Hospital
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渡辺 順次
東工大院理工
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ARAOKA Fumito
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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GOTO Masanao
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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SHIBATA Koji
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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渡邊 順次
東工大工
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JIMBO Takashi
Research Center for Micro-Structure Device, Nagoya Institute of Technology
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空本 誠喜
(株)東芝原子力機器設計部
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渡辺 順次
東京工業大学大学院理工学研究科
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Xu C‐q
The Authors Are With The Opto-electronics Laboratories Oki Electric Industry Co.ltd.
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Xu Chang-qing
Photonics Research Group Microelectronics Division School Of Electrical And Electronic Engineering N
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Xu Chang-qing
Semiconductor Technology Laboratory Oki Electric Industry Co. Ltd.
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Shimizu H
Nihon Kesso Koogaku Co. Ltd. Gunma Jpn
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Mori Takeharu
Institute Of Materials Structure Science High-energy Accelerator Research Organization
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OKAYAMA Hideaki
Semiconductor Technology Laboratory, Oki Electric Industry Co. Ltd.
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Yokota Kazuaki
Department Of Molecular Chemistry Graduate Shool Of Engineering Hokkaido University
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Umeno Masayoshi
Department Of Electronic And Computer Engineering Nagoya Institute Of Technology
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黒澤 葉子
東北大学工学部
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Ahn Tae
On Leave From Semiconductor R&d Center Samsung Electronics Co. Ltd.
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Hwang Sung
School Of Electrical Engineering Korea University:institute Of Quantum Information Processing And Sy
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Hwang Sung
Fundamental Research Laboratories Nec Corporation
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菅井 秀郎
名古屋大
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Suzuki K
School Of Science And Engineering Waseda University:kagami Memorial Laboratory For Materials Science
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Shibata Koji
Department Of Metallurgy School Of Engineering The University Of Tokyo
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中村 健太郎
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Araoka Fumito
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Koike T
Toshiba Corp. Yokohama Jpn
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Okayama Hideki
R&d Group Oki Electric Industry Co. Ltd.
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Watanabe J
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Watanabe Junji
Department Of Cardiology Yokkaichi Municipal Hospital
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Yamazaki Daisuke
Department Of Electrical And Communication Engineering Graduate School Of Engineering Tohoku Univers
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佐藤 道雄
(株)東芝
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高野 剛浩
東北工業大学
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LEE Jong
Department of Polymer Science and Engineering, Kumoh National Institute of Technology
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梅田 実
Nagaoka University of Technology
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高野 剛浩
東北工大
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山崎 潔
東洋通信機(株)水晶技術本部
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Yoshida K
Department Of Chemistry Graduate School Of Science Osaka University
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Yamaguchi K
Osaka Univ. Osaka
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太田 聡
東北大学大学院理学研究科地圏進化学講座
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KOBAYASHI Hideaki
Department of Materials Science and Processing, Faculty of Engineering, Osaka University
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Tazuke Yuichi
Hokkaido University
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進藤 大輔
東北大学素材工学研究所
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進藤 大輔
東北大・素材研
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原 浩一
東洋通信機(株)水晶技術本部
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Ghanashev Ivan
Department of Electrical Engineering, Nagoya University
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Yoneda Shinichi
Department of Electrical Engineering, Nagoya University
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Mitsuhira Noriyuki
Sumitomo Metal Industries Co., Ltd.
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Nakamura Moritaka
Fujitsu Co., Ltd.
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金 正鎬
東海大学海洋学部
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SHIRAHATA Takashi
Department of Chemistry and Materials Science, Tokyo Institute of Technology
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YOSHINO Takamasa
Department of Chemistry and Materials Science, Tokyo Institute of Technology
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WATAKABE Yohei
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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SONOYAMA Koji
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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CHOI Suk-Won
Department of Organic & Polymeric Materials, Tokyo Institute of Technology
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FUKUDA Kaoru
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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NAKAHARA Shoichiro
Department of Applied Chemistry and Biotechnology, Chiba University
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KISHIKAWA Keiki
Department of Applied Chemistry and Biotechnology, Chiba University
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JEONG Soon
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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NISHIDA Koushi
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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KIM Yon
Department of Chemistry and Chemistry Institute for Functional Materials, Pusan National University
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LEE Seng
Department of Chemistry and Chemistry Institute for Functional Materials, Pusan National University
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HEO Sung
Department of Chemistry and Chemistry Institute for Functional Materials, Pusan National University
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KANG Kyung-Tae
Department of Chemistry and Chemistry Institute for Functional Materials, Pusan National University
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SHIMBO Yoshio
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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GORECKA Ewa
Chemistry Department, Warsaw University
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POCIECHA Damian
Chemistry Department, Warsaw University
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MIECZKOWSKI Jozef
Chemistry Department, Warsaw University
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GOMOLA Kinga
Chemistry Department, Warsaw University
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TAGUCHI Tomohiro
Department of Organic Materials, Tokyo Institute of Technology
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KAMBAYASHI Takuya
Department of Organic Materials, Tokyo Institute of Technology
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NISHIMURA Suzushi
Nippon Oil Corporation, Central Technical Research Lab.
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TOYOOKA Takehiro
Nippon Oil Corporation, Central Technical Research Lab.
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Nakahara Shoichiro
Department Of Applied Chemistry And Biotechnology Chiba University
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Gorecka Ewa
Chemistry Department Warsaw University
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Kishikawa Keiki
Department Of Applied Chemistry And Biotechnology Chiba University
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KOO Won
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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YUN Hong
Department of Organic and Polymeric Materials, Tokyo Institute of Technology
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JEONG Soon
Nippon Oil Corporation, Central Technical Research Laboratory
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Yoshino Takamasa
Department Of Chemistry And Materials Science Tokyo Institute Of Technology
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Mieczkowski Jozef
Chemistry Department Warsaw University
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Heo Sung
Department Of Chemistry And Chemistry Institute For Functional Materials Pusan National University
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渡邊 順次
東京工業大学大学院理工学研究科
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Lee Jong
Department Of Chemistry And Chemistry Institute For Functional Materials Pusan National University
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望月 孝祥
東北大学大学院 情報科学研究科
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KAMIJOH Takeshi
Semiconductor Technology Laboratory, Oki Electric Industry Co. Ltd.
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太田 聡
日本大学大学院工学研究科
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山崎 大輔
東北大学大学院工学研究科
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藤原 浩人
東北大院・工
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熊坂 克典
トーキン
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Jimbo T
Department Of Environment Technology And Urban Planning Nagoya Institute Of Technology
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TAMURA Rui
Graduate School of Environmental Earth Science, Hokkaido University
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石川 一夫
東北大学工学部
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黒澤 葉子
東北大・工
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佐藤 尚史
東北大・工
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石川 一夫
東北大・工
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Koo Won
Department Of Metallurgical System Engineering Yonsei University
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Koo Won
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Nakamura Keiko
Department of Pathology and Applied Neurobiology, Graduate School of Medical Science, Kyoto Prefectu
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Kim Yon
Department Of Chemistry And Chemistry Institute For Functional Materials Pusan National University
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Hwang S
Semyung Univ. Chungbuk Kor
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Yun Hong
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Sugai Hideo
Department Of Electrical Engineering Faculty Of Engineering Nagoya University
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Choi S‐w
Department Of Organic & Polymeric Materials Tokyo Institute Of Technology
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Gomola Kinga
Chemistry Department Warsaw University
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Fukuda Kaoru
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Yoshida S
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Watakabe Yohei
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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平 和彦
東北大院・工
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Nishida Koushi
Department Of Organic And Polymeric Materials Tokyo Institute Of Technology
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Kang Kyung-tae
Department Of Chemistry And Chemistry Institute For Functional Materials Pusan National University
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Ghanashev Ivan
Department Of Electrical Engineering Nagoya University
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WATANABE Toshihide
ATR Optical and Radio Communication Research Laboratory
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Mori T
Department Of Electrical Engineering School Of Engineering Nagoya University
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Ishikawa Hiroyasu
Department of Internal Medicine, Anjo Kosei Hospital
著作論文
- Plasma Absorption Probe for Measuring Electron Density in an Environment Soiled with Processing Plasmas
- Diagnostic of Surface Wave Plasma for Oxide Etching in Comparison with Inductive RF Plasma
- 液体媒質の非線形パラメータB/Aの自動測定
- High Carrier Mobility in Mesophase of a Dithienothiophene Derivative
- Organic Field-effect Transistors Based on Solution-processible Dibenzotetrathiafulvalene Derivatives
- (Tetrathiafulvalene)(tetracyanoquinodimethane) as a Contact Material for n-Channel and Ambipolar Organic Transistors
- Lowering Threshold by Energy Transfer between Two Dyes in Cholesteric Liquid Crystal Distributed Feedback Lasers
- Amplification of Twisting Power in Chiral Mesophase by Introducing Achiral Rod-like Compound with Ester Group
- Flexible Microcavity Organic Light-Emitting Diodes with Wide-Band Organic Distributed Bragg Reflector
- Longer-Terminal-Chain-Sensitive Phase Structures in Mixtures and Nonsymmetric Molecules of Bent-Core Mesogens
- Ideal Liquid Crystal Display Mode Using Achiral Banana-Shaped Liquid Crystals
- Syntheses and Properties of Oligothiophenes with Cyano and Hexyl Groups
- Spontaneously Buckled Microlens for Improving Outcoupled Organic Electroluminescence
- 端部への物体接近による圧電屈曲振動子特性の変化 : 近接センサのための基礎的検討
- 端部への物体接近によって生じる圧電屈曲振動子特性の変化のモデル解析
- P1-C-36 端部への物体接近による屈曲振動子特性の変化とその一考察(バルク波・表面波デバイス,ポスターセッション1(概要講演))
- 屈曲振動板端部への物体接近時に見られる振動子特性の特異現象について
- 分極反転層を有する薄いLiTaO_3回転Y板におけるSH波の温度特性
- KNbO_3結晶におけるBGS表面波の伝搬特性の測定
- 温度勾配により圧電定数を傾斜させた圧電トランスデューサの特性
- 温度勾配による圧電定数の傾斜化とその等価回路による評価
- 圧電体中に形成した温度勾配による圧電定数傾斜化の試み
- A-11-14 LoTaO_3 32°-42°回転Y板上へのZnOの膜のエピタキシャル成長
- LiNbO_3回転変位アクチュエータを用いた波長可変光フィルタ
- LiNbO_3回転変位アクチュエータを用いた波長可変光フィルタ
- 重み付けIDTの導波モードを考慮したCOM等価回路
- P2-4 分極反転層を形成したLiNbO_3トランスデューサの固体媒質への超音波放射特性(ポスターセッション2(概要講演))
- PMN-PTにおけるバルク波及び表面波の伝搬特性と電気機械結合係数(一般・材料)
- 圧電結晶・デバイスの研究に携わって
- KNbO_3板の圧電縦効果幅縦振動の電気機械結合係数について
- 分極反転層を形成したLiNbO_3トランスデューサの固体媒質への超音波放射特性
- A-11-3 SMR 型圧電薄膜共振子の温度特性改善
- A-11-2 ECR-PLD 法による KNbO_3 圧電薄膜の成長
- 分極反転層を有するLiNbO_3板を用いた広帯域超音波トランスデューサ
- 新しい圧電結晶KNbO_3の魅力
- ハーモニックメージング用LiNbO_3トランスデューサ
- A-11-12 KNbO_3結晶を用いたVHF帯超音波トランスデューサの試作
- P3-28 λ/4音響多層膜を用いたGHz帯ZnO圧電薄膜共振子(ポスターセッション3,ポスター発表)
- 励振電界を傾斜化した複合圧電材料とその無回折ビームトランスデューサへの応用
- LiTaO_3回転Y板を用いたエネルギー閉じ込め型振動ジャイロ
- OD4 LiNbO_3回転Y板を用いたエネルギー閉じ込め型振動ジャイロ(バルク波デバイス)
- LiNbO_3回転Y板を用いたエネルギー閉じ込め型振動ジャイロ
- 圧電結晶を用いたエネルギー閉じ込め型振動ジャイロ
- 圧電結晶を用いたエネルギー閉じ込め型振動ジャイロ
- 圧電結晶を用いたエネルギー閉じ込め型振動ジャイロ
- 圧電結晶を用いたエネルギー閉じ込め型振動ジャイロ
- PD2 遮蔽電極を有する3端子型ATカット水晶振動子(ポスターセッション1)
- KNbO_3薄膜/基板構造におけるSH型弾性表面波の伝搬特性
- ZnO/42°Y-X LiTaO_3におけるSH-SAW特性
- ZnO/Y-X LiNbO_3構造におけるSH-SAW伝搬特性の測定
- c軸が基板表面に平行なZnO膜の極性判別方法
- (110)ZnO/(012)LiTaO_3構造におけるSH型弾性表面波の解析
- ECR-MBE法によるLiTaO_3回転Yカット基板上へのZnO圧電膜の成長
- OD2 屈曲振動を利用した共振式超音波水位計(超音波計測)
- 屈曲振動を利用した共振式超音波水位計
- Functionally Graded Broadband Ultrasound Transducer Created by Forming an Internal Temperature Gradient : Instrumentation, Measurement, and Fabrication Technology
- A Functionally Graded Piezoelectric Material Created by an Internal Temperature Gradient : Electrical Properties of Condensed Matter
- ECR-MBE法によるIDT/LiNbO_3上へのZnO膜の成長とその圧電特性
- ECR-MBE法によるLiNbO_3基板上へのZnO薄膜のエピタキシャル成長
- 圧電定数に傾斜を持つ圧電板を用いた超音波トランスデューサの等価回路解析
- 圧電定数に傾斜を持つ圧電板を用いた超音波トランスデューサの等価回路解析
- 圧電定数に傾斜を持つ圧電板を用いた超音波トランスデューサの等価回路解析
- 圧電定数に傾斜を持つ圧電板を用いた超音波トランスデューサの等価回路解析
- 分極反転層を利用したハーモニックイメージング用高周波超音波トランスデューサ
- PE06 非線形第2高調波を受波できる超音波集束ガウス音源(ポスターセッションI)
- 分極反転LiNbO_3結晶を用いた超音波トランスデューサの試作
- LiNbO3結晶の分極反転層を用いた超音波トランスデューサの特性解析
- 非線形第2高調波を受波できる超音波集束ガウス音源
- Space- and Time-Resolved Measurements of Negative Ions in a Pulsed Inductively-Coupled Plasma in Chlorine
- A New Technology for Negative Ion Detection and the Rapid Electron Cooling in a Pulsed High-Density Etching Plasma
- LiNbO_336゜回転Y板を使用した厚み縦モード3次高調波振動子
- 複合圧電材を用いた面積重み付けコニカル形超音波トランスジューサ
- PF1 分割励振重み付けによる無回折型コニカル超音波トランスジューサの特性(ポスターセッション4-概要講演・展示)
- 励振面積により重み付けした無回折型コニカル超音波トランスジューサ
- 重み付け分割コニカル形 長距離集束超音波トランスジューサの試作
- PA-37 重み付け分割コニカル形トランスジューサの理論的検討(P.ポスターセッションA-概要講演・展示)
- Holding Mechanism Using a Resonance System for a High-Power Ultrasonic Linear Motor
- Waveforms of the Vibration Velocity and the Current of a Piezoelectric Transducer in the Transient State
- An Analysis of Jumping and Dropping Phenomena of Piezoelectric Transducers using the Electrical Equivalent Circuit Constants at High Vibration Amplitude Levels
- Effects of Vibration Stress and Temperature on the Characteristics of Piezoelectric Ceramics under High Vibration Amplitude Levels Measured by Electrical Transient Responses
- A Low-Wear Driving Method of Ultrasonic Motors
- Effects of a Series Capacitor on the Energy Consumption in Piezoelectric Transducers at High Vibration Amplitude Level
- Characteristics of Ultrasonic Motors Driven in a Vacuum
- ホッピング超音波モ-タの基礎特性
- Energy Storage Characteristics of a Piezo-Generator using Impact Induced Vibration
- Efficiency Improvement of an Ultrasonic Motor Driven with Rectangular Waveform
- Analysis of the Transformation of Mechanical Impact Energy to Electric Energy Using Piezoelectric Vibrator
- Wear Properties and Life Prediction of Frictional Materials for Ultrasonic Motors
- An estimation of vibration intensity from the measured vibration locus at one point
- Finite Element Method Aided Power Flow Mapping of an Ultrasonic Vibration Tool
- A Multi-Transducer Near Field Acoustic Levitation System for Noncontact Transportation of Large-Sized Planar Objects
- Characteristics of Underwater Near-Field Acoustic Radiation Force Acting on a Planar Object
- 外締め構造を有する大口径ボルト締めランジュバン型ねじり振動子
- Construction of Megatorque Hybrid Transducer Type Ultrasonic Motor
- A Study on the Mechanism of a Scientific Toy "Girigiri-Garigari"
- 面内振動成分を用いた振動インテンシティ計測
- Ultrasonic Transducer Array for Structural Intensity Measurements
- Two-joint robot finger design based on multi-degree-of-freedom ultrasonic motors(Commemoration of the Japan-China Joint Conference on Acoustics 2007 (JCA2007))
- A method for measuring liquid level using the flexural vibrations in a rod
- A basic design of robot finger joint using multi-degree-of-freedom ultrasonic motor
- Ultrasonic linear motor using traveling vibration on fine ceramic twin ridges
- P3-66 A robot finger joint driven by Multi-Degree-of-Freedom Ultrasonic actuator(Poster session 3)
- P3-51 A self-running ultrasonic levitated linear guide(Poster session 3)
- P3-50 Improvement in the Flow Rate of a Miniature Ultrasonic Suction Pump(Poster session 3)
- P2-60 A 2D-Array of Multi-Degree-of-Freedom Ultrasonic Actuators(Poster session 2)
- P2-24 A high frequency optical scanner using flexural vibration of an optical fiber(Short oral presentation for posters)
- E-3 A Miniature Multi-Degree-of-Freedom Ultrasonic Motor(Bulk wave devices, High power ultrasound)
- ZnO/Y-X LiNbO_3構造におけるSH型弾性表面波と光波のコリニア相互作用
- A-11-6 ZnO/Y-X LiNbO_3構造におけるSH型弾性表面波の理論解析
- A-11-5 KNbO_3単結晶平板振動子の電気機械結合係数
- KNbO_3単結晶の縦効果電気機械結合係数
- KNbO_3単結晶のバルク波に対する電気機械結合係数
- V溝構造により圧電機能を傾斜させた広帯域超音波トランスデューサ
- V溝構造により広帯域化を図った無回折ビーム超音波トランスデューサ
- Equivalent Network Analysis of Functionally Graded Piezoelectric Transducers
- Correlated Electron-Trapping Events in a One-Dimensional Channel
- Estimation of Epitaxial Temperature Using X-Ray Diffraction for Si Films Grown on (100) Si by Molecular Beam Epitaxy
- X-Ray Diffraction from Low-Temperature-Grown Silicon Films with Small Surface Roughness
- Growth of ZnO Thin Films on LiNbO_3 Substrates by Electron Cyclotron Resonance-Assisted Molecular Beam Epitaxy
- Equivalent Network Representation for Thickness Vibration Modes in Piezoelectric Plates with an Exponentially Graded Parameter
- PF-17 等価回路による圧電機能傾斜型広帯域超音波トランスデューサの特性解析
- Broadband Transducers Using Effectively Graded Piezoelectric Plates for Generation of Short-Pulse Ultrasound
- 圧電定数に傾斜を持つ超音波トランスデューサの等価回路解析
- OD2 V溝構造を持つ圧電機能傾斜型広帯域超音波トランスデューサ(バルク波デバイス,口頭発表)
- Preparation of (Pb, La)(Zr, Ti)O_3 Ferroelectric Films by RF Sputtering on Large Substrate
- SH型弾性表面波を用いた音響光学波長可変フィルタの理論的検討
- KNbO_3結晶におけるSH型弾性表面波の解析
- Efficient Free-Exciton Recombination Emission from Diamond Diode at Room Temperature : Optics and Quantum Electronics
- Current Injection Free-Exciton Recombination Emission from Synthesized Diamond
- Photoluminescence Characterization of High-Purify Synthesized Diamond
- BGS表面波に与える電極薄膜の影響の検討
- Characteristics of GaN MESFET Grown on Sapphire Substrate by MOCVD
- High-Temperature Behaviors of GaN Schottky Barrier Diode
- Characteristics of a GaN Metal Semiconductor Field-Effect Transistor Grown on a Sapphire Substrate by Metalorganic Chemical Vapor Deposition
- Pd/GaN Schottky Diode with a Barrier Height of 1.5 eV and a Reasonably Effective Richardson Coefficient
- AlGaAs Semiconductor Quasiphase-Matched Wavelength Converters
- Confirmation of AlGaAs Crystal Domain Inversion Using Asymmetric Wet Etching and Optical Second-Harmonic Generation Methods
- Second Harmonic Generation in a Paramagnetic All-Organic Chiral Smectic Liquid Crystal
- Single-Crystalline Zn0 Films Grown on (0001)A1_20_3 Substrate by Electron Cyclotron Resonance-Assisted Molecular Beam Epitaxy Technique
- 2005年秋季研究発表会
- Exchange Interactions in M_x TiS_2 (M=Fe,Co)
- λ/4音響多層膜を用いた圧電薄膜共振子の試作
- オーバートーン厚み振動子を利用した薄膜の音響特性評価
- A-11-5 オーバートーン厚み振動子を利用した薄膜の音響特性評価
- PC-12 音響多層膜を用いた圧電薄膜共振子の解析
- A-11-10 音響多層膜を用いたλ/4モード構成の圧電薄膜共振子の解析
- 圧電定数を直線的に傾斜させた圧電板の厚み振動の解析と等価回路表示
- V溝構造を持つ圧電機能傾斜型トランスデューサの有限要素法解析
- 圧電定数が直線的に変化した圧電板における厚み振動の等価回路表示
- 圧電定数が直線的に変化した圧電板における厚み振動の等価回路表示
- 圧電定数が直線的に変化した圧電板における厚み振動の等価回路表示
- 圧電定数が直線的に変化した圧電板における厚み振動の等価回路表示
- V溝構造により励振電界を傾斜させた広帯域超音波トランスデューサ
- 複合V構構造による圧電機能傾斜型広帯域超音波トランスデューサ
- SA-5-5 振動ジャイロ用短冊状LiTaO_3厚みすべり振動子
- 短冊状LiNbO_3振動子の直交厚みすべり振動
- ECRアシスト電子ビーム蒸着によるSiO_2膜およびAl_2O_3膜の作成とその音響特性の評価
- Observation of 77 K Staircase I-V Characteristics in 2DEG's Irradiated by a Focused Ion Beam
- Single Electron Digital Phase Modulator
- 副電極との結合共振を用いた低次ハーモニック振動の抑圧
- Optimum Operation Conditions of an Ultrasonic Motor Driving Fluid Directly
- Trial Construction of a Noncontact Ultrasonic Motor with an Ultrasonically Levitated Rotor
- Analyses of an Ultrasonic Motor Driving Fluid Directly
- SAWデバイス用圧電結晶基板とその特性
- ニオブ酸リチウム単結晶を用いた圧電トランス
- ECR-MBE法によるサファイア基板上へのZnO圧電膜の成長
- ECR-MBE法によるZnO圧電膜の成長とその特性
- 重み付けIDTの導波モードを考慮したCOM等価回路
- KNbO_3結晶の分域構造と圧電特性
- 音響多層膜を用いた圧電薄膜共振子の解析
- 多層膜圧電共振子の膜圧誤差による共振特性の分散
- 音響多層膜を用いた圧電薄膜共振子の解析
- A-11-15 有極性多分域KNbO_3結晶とその圧電特性
- OD01 ZnO/KNbO_3構造におけるSH型表面波と光波との相互作用(光超音波エレクトロニクス,非破壊検査)
- Characteristics of a Discretely Weighted Conical Transducer for Generation of Limited Diffraction Beams
- Theoretical Study on Discretely Weighted Comical Tansducers
- A-11-1 [001]_方向に分極したKNbO_3単結晶の圧電特性
- ZnO/KNbO_3構造におけるSH型表面波-光波相互作用の解析
- 圧電結晶の分極反転とそのデバイスへの応用
- Analysis of Piezoelectric Thin Film Resonators with Acoustic Quarter-Wave Multilayers
- PE6 水晶/LiTaO_3構造における弾性境界波の解析(SAWデバイス,ポスターセッション1)
- 水晶/LiTAO_3構造における弾性境界波の解析
- エバネッセント波近接センサにおける気体媒質依存性の検討
- OB2 屈曲波により形成されるエバネセント波を用いた近接センサの基礎的検討(計測)
- エバネッセント波近接センサにおける周波数特性の近接度依存性
- 屈曲波により形成されるエバネセント波を用いた近接センサの基礎的検討
- High-speed focus scanning by an acoustic variable-focus liquid lens (Special issue: Ultrasonic electronics)
- Resonant Directional Excitation of Helicon Waves by a Helical Antenna
- Hot Spots and Electron Heating Processes in a Helicon-Wave Excited Plasma
- リニアアレイを用いた無回折型超音波ビームの電子走査に関する検討
- PE10 複合圧電材を用いた面積重み付けコニカル形超音波トランスジューサの特性(ポスターセッション3)
- パルス反射法による重み付けコニカル形トランスジューサの分解能評価
- 複合圧電材重み付けコニカル形トランスジューサの製作と特性
- First Fabrication of AlGaAs/GaAs Double-Heterostructure Light-Emitting Diodes Grown on GaAs (111)A Substrates Using Only Silicon Dopant
- LiNbO_3ラーメモード振動子とその圧電トランスへの応用
- Position Alignment in Algebraic Reconstruction Method by Using Center of Gravity
- Simulation Study of Noise Influence in 3-Dimensional Reconstruction using High-Angle Hollow-Cone Dark-Field Transmission Electron Microscope Images
- Atomic Species Analysis and Three-Dimensional Observation by High-Angle Hollow-Cone Dark-Field Transmission Electron Microscopy
- 強誘電反転ドメインの形成と超音波トランスジューサへの応用 (最近の超音波応用デバイス論文特集)
- LiNbO_3の反転分域を利用したSAWコンボルバ