Kawai Y | Welding Research Institute Osaka University
スポンサーリンク
概要
関連著者
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Kawai Y
Welding Research Institute Osaka University
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Kawai Yoshinobu
Interdiciplinary Gradate School Of Engineering Sciences Kyushu University
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Kawai Yoshinobu
Welding Research Institute Osaka University
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Kawai Y
Mitsubishi Materials Silicon Corporation
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河合 良信
九大総理工
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Kawai Y
Kyushu Univ. Fukuoka Jpn
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Kawai Yasunobu
Interdisciplinary Graduate School Of Engineering Sciences Kyushu University
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KAWAI Yoshinobu
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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吉村 信次
核融合研
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篠原 俊二郎
九大総理工
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田中 雅慶
九大総理工
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中村 良治
元宇宙研
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中村 良治
宇宙研
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庄山 裕章
九大 総理工
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MATSUDA Tadahito
NTT System Electronics Laboratories
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NAKAMURA Jiro
NTT Telecommunications Energy Laboratories
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田中 通義
東北大多元研
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KAWAI Yoshio
NTT LSI Laboratories
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渡辺 二太
核融合科学研究所
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渡邉 二太
National Institute for Fusion Science
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渡辺 二太
文部省核融合科学研究所
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Kawai Yoshinobu
Interdisciplinary Graduate School Of Engineering Sciences Kyushu University
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MATSUDA Tadahito
NTT LSI Laboratories
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MOROSAWA Tetsuo
NTT LSI Laboratories
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Arata Y
Osaka Univ. Osaka Jpn
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杉本 尚哉
Department Of High Energy Engineering Sciences Kyushu University
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KAWAI Yoshinobu
Department of High Energy Engineering Science,Interdisciplinary Graduate School of Engineering Scien
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KISHIMOTO Hiroaki
Welding Research Institute, Osaka University
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ABE Nobuyuki
Welding Research Institute, Osaka University
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渡辺 二太
核融合研
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田中 雅慶
核融合研
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市來 龍大
九大総理工
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林 信哉
九大総理工
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SHINOHARA Shunjiro
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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市來 龍大
九大総理工:(現)東北大工
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ABE Nobuyuki
Osaka University
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ARATA Yoshiaki
Osaka University
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MIYAKE Shoji
Osaka University
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庄山 裕章
九大総理工
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KISHIMOTO Hiroaki
Osaka University
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KAWAI Yoshinobu
Kyushu University
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河野 光雄
中央大総合政策
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林 信哉
佐賀大
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Komori Akio
Interdisciplinary Graduate School Of Engineering Sciences Kyushu University
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ODA Masatoshi
NTT LSI Laboratories
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Shinohara Shunjiro
Interdisciplinary Graduate School Of Engineering Science Kyushu University
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ODA Masatoshi
NTT Telecommunications Energy Laboratories
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ODA Masatoshi
NTT System Electronics Laboratories
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Komori A
National Inst. Fusion Sciences Nagoya‐shi Jpn
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杉本 尚哉
九大総理工
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Ueda Yoko
Interdiciplinary Gradate School of Engineering Sciences, Kyushu University
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Muta Hiroshi
Department of Electronics and Control Engineering, Kitakyushu National College of Technology
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TAKEUCHI Yoshiaki
Nagasaki Research & Development Center, Mitsubishi Heavy Industries Ltd.
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MASHIMA Hiroshi
Nagasaki Research & Development Center, Mitsubishi Heavy Industries Ltd.
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MURATA Masayoshi
Nagasaki Research & Devepolment Center, Mitsubishi Heavy Industries Ltd.
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吉村 信次
九大総理工
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坂本 格
九大総理工
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西宮 立享
九大総理工
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DEGUCHI Kimiyoshi
NTT Telecommunications Energy Laboratories
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KAWAI Yoshio
NTT Telecommunications Energy Laboratories
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渡辺 二太
核融合科研
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眞銅 雅子
九大総理工
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SUGIMOTO Masaya
Department of Pediatrics, Asahikawa Medical College
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谷口 和成
京教大物理
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Shinohara Shunjiro
九州大学大学院総合理工学研究科
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今泉 洋
九大総理工
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古閑 一憲
九大総理工
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Shinohara Shunjiro
Interdisciplinary Graduate School Of Engineering Sciences Kyushu University
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Saitou Y
宇都宮大工
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TANAKA Masayoshi
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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河合 良信
九大 総理工
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Takechi Seiji
Interdisciplinary Graduate School Of Engineering Sciences Kyushu University
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TANAKA Masayoshi
National Institute for Fusion Science
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Yamakoshi Hideo
Advanced Technology Research Center Mitsubishi Heavy Industries Ltd.
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FURUYA Hisashi
Central Research Inst. Mitsubishi Materials Corporation
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古閑 一憲
九州大学
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Ban H
Ntt Advanced Technol. Corp. Atsugi‐shi Jpn
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福川 幸司
九大総理工
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MIYAUCHI Yoko
Interdisciplinary Graduate School of Engineering Science, Kyushu University
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Ishigami Shun-ichiro
Central Research Institute, Mitsubishi Materials Corporation
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HORIUCHI Kei
Fujitsu Laboratories Ltd.
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谷口 和成
九大総理工
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石神 俊一郎
三菱マテリアル中央研究所
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KOCHIYA Hiroyuki
NTT Advanced Technology
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USHIYAMA Yukihiko
NTT Advanced Technology
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NAKAMURA Jiro
NTT System Electronics Laboratories
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KAWAI Yoshio
NTT System Electronics Laboratories
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AGAWA Yoshiaki
Osaka University
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森崎 友宏
核融合研
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山田 弘司
核融合科学研究所
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Narihara K
National Institute For Fusion Science
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Morita S
National Institute For Fusion Science
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田中 謙治
National Institute for Fusion Science
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榊原 悟
National Institute for Fusion Science
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池田 勝則
National Institute for Fusion Science
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森崎 友宏
National Institute for Fusion Science
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小森 彰夫
核融合研
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KOMORI Akio
National Insitute for Fusion Science
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YAMADA Hiroshi
National Insitute for Fusion Science
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IDA Katsumi
National Insitute for Fusion Science
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MORISAKI Tomohiro
National Insitute for Fusion Science
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MORITA Shigeru
National Insitute for Fusion Science
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NISHIMURA Kiyohiko
National Insitute for Fusion Science
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SAKAKIBARA Satoru
National Insitute for Fusion Science
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TANAKA Kenji
National Insitute for Fusion Science
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TOI Kazuo
National Insitute for Fusion Science
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MOTOJIMA Osamu
National Insitute for Fusion Science
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IGUCHI Harukazu
National Institution of Fusion Science, Toki, Gifu 509-5292, Japan
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齋藤 和史
宇都宮大工
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ANDO Akira
National Institute for Fusion Science
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EJIRI Akira
National Institute for Fusion Science
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MATSUOKA Keisuke
National Institute for Fusion Science
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TAKAHASHI Chihiro
National Institute for Fusion Science
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Nagayama Y
Research Institute For Applied Mechanics Kyushu University
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Nagashima Y
Graduate School Of Frontier Sciences The University Of Tokyo
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Nagashima Yoshihiko
Graduate School Of Frontier Sciences The Univ. Of Tokyo
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Ejiri A
National Inst. Fusion Sci. Nagoya
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渡邉 二太
核融合研
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米須 章
琉球大工
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上田 洋子
九大総理工
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Nagashima Yoshihiko
Research Institute For Applied Mechanics Kyushu University
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Ejiri Akira
National Institute For Fusion Science:(present Address) Department Of Physics Faculty Of Science Uni
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齋藤 和史
宇都宮大 工
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Komori Akio
Department Of High Energy Engineering Science Kyushu University Kasuga
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Takayama K
Tokai University
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Iguchi H
National Institute For Fusion Science
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Iguchi Harukazu
National Institute For Fusion Science
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米須 章
琉球大学
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Morimoto Shigeyuki
Plasma Physics Laboratory Kyoto University:(present Address) National Institute For Fusion Science
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Morimoto Shigeyuki
Plasma Physics Laboratory Kyoto University
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河合 良信
九州大学総合理工学研究科
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HIGASHI Seiichiro
Seiko Epson Corporation, Technology Platform Research Center
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MATSUDA Tadahito
NTT Telecommunications Energy Laboratories
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Morita S
National Inst. Fusion Sci. Gifu Jpn
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Kondoh H
Ricoh Co. Ltd. Miyagi Jpn
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Ida K
National Institute For Fusion Science
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SAITOU Yoshifumi
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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NAKAMURA Yoshiharu
The Institute of Space and Astronautical Science
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和田 哲行
九大総理工
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市来 龍大
九大総理工
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Tanaka M
Production Engineering Research Laboratory Hitachi Ltd.
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Tanaka M
Mitsubishi Electric Co. Ltd. Hyogo Jpn
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OKAMURA Shoichi
National Institute for Fusion Science
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Ando Akira
Murata Mfg. Co. Ltd.
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Takechi S
Kyushu Univ. Fukuoka Jpn
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Nakamura Yuki
Department Of Physics Faculty Of Science Hokkaido University
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Morita S
Osaka Univ. Osaka Jpn
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Minami T
National Institute For Fusion Science
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Tanaka Michiko
Tokyo University Of Agiculture And Technology Department Of Biotechnology
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Hamada Y
Nagoya Municipal Industrial Res. Inst. Nagoya Jpn
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Nakashima Yousuke
Graduate School Of Energy Science Kyoto University
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Komori Akio
National Institute For Fusion Science
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Motojima Osamu
Plasma Physics Laboratory Kyoto University
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SHINGYOUJI Takayuki
Mitsubishi Materials Silicon Corporation
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Tanaka Masayoshi
Department Of Frontier Materials Graduate School Of Engineering Nagoya Institute Of Technology
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HIGASHI Seiichiro
Department of Semiconductor Electronics and Integration Science, Graduate School of Advanced Science
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Nakamura Y
Ryukoku Univ. Otsu
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Nakamura Yoji
Faculty Of Science And Technology Ryukoku University
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Kono Mitsuo
Faculty Of Policy Studies Chuo University
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Shingyouji T
Mitsubishi Materials Corp. Saitama Jpn
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SAKODA Tadanori
Department of Electronics and Control Engineering, Kitakyushu National College of Technology
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TAKATSUKA Hiromu
Nagasaki Shipyard & Machinery Works, Mitsubishi Heavy Industries Ltd.
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YAMAUCHI Yasuhiro
Nagasaki Shipyard & Machinery Works, Mitsubishi Heavy Industries Ltd.
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YAMASHITA Hideaki
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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UCHINO Satoshi
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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Horioka Tatsuji
Power Systems Engineering Center, Power Systems Headquarters, Mitsubishi Heavy Industries Ltd.
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Yamane Tsukasa
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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MASHIMA Hiroshi
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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YOSHIOKA Masao
Interdisciplinary Graduate School of Engineering Sciences, Kyushu University
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NISHIDA Seiichi
Nagasaki Research & Development Center, Mitsubishi Heavy Industries Ltd.
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MORITA Syoji
Nagasaki Research & Development Center, Mitsubishi Heavy Industries Ltd.
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Tanaka M
New Materials Research Center Sanyo Electric Co. Ltd.
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RYUTA Jiro
Central Research Institute, Mitsubishi Materials Corporation
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ARATA Yoshiaki
Welding Research Institute of Osaka Univ.,
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MIYAKE Shoji
Welding Research Institute of Osaka Univ.,
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NAGAO Keisuke
Department of Electrical and Electronic Engineering, Tokyo Institute of Technology
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吉村 信次
九州大学総合理工学研究科
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中村 良治
宇宙科学研究所
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吉村 信次
宇宙研
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Tanaka M
Manufacturing Development Center Mitsubishi Electric Corporation
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Mutoh Takashi
Plasma Physics Laboratory Kyoto University
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Kondoh Hideyuki
Central Research Institute, Mitsubishi Materials Corporation
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Kawai Yukio
Mitsubishi Materials Silicon Corporation
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篠原 俊二郎
九大 総理工
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河野 光雄
中央大 総合政策
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田中 雅慶
九州大学 総理工
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長尾 圭祐
九州大学 総理工
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庄山 裕章
九州大学 総理工
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河合 良信
九州大学 総理工
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Idei Hiroshi
Kyushu Univ. Fukuoka Jpn
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Toi Kazuo
National Institute For Fusion Science
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河合 良信
宇宙研
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FUKUDA Makoto
NTT Telecommunications Energy Laboratories
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OHNO Terukazu
NTT Telecommunications Energy Laboratories
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HAMADA Hiroshi
NTT Advanced Technology
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SHIMIZU Takashi
NTT Advanced Technology
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DEGUCHI Kimiyoshi
NTT System Electronics Laboratories
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Tanaka M
Toshiba Corp. Kawasaki Jpn
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Takayama K
Tokai Univ. Hiratuka Jpn
著作論文
- Measurement of Edge Density Profiles and Fluctuations in the H-Mode Discharge of the Compact Helical System (CHS) with a Thermal Neutral Lithium Beam Probe
- 27aC26P 負イオンプラズマ中のイオン音波slowモードの支配的伝播(プラズマ基礎・応用)
- 27pA03P 3成分イオンプラズマ中のイオン音波伝播特性(プラズマ基礎・応用)
- 28p-C-2 ECRプラズマ中のイオンおよび中性原子温度の測定
- 24aD-7 Ar/SF_6プラズマ中のイオン音波伝播
- 25aYG-11 イオンバーストを用いた多種イオンプラズマ測定
- Behavior of Time-Resolved Ion Energy Distribution Functions during Ion-Ion Instability
- 12p-M-7 斜め入射のイオンビームによるイオン-イオン不安定性の励起とその外場による抑制
- 27pA04P 2種類の負イオンを含む多成分系プラズマ中のイオン音波(プラズマ基礎・応用)
- Electron Cyclotron Wave Plasma Production Using a Concave Lens
- 28a-Q-12 マイクロ波凹レンズを用いた大口径高密度プラズマの生成
- 29a-YB-11 マルチプレートランチャーによる大口径・高密度プラズマの生成
- 12a-M-7 ヘリコン波によって生成されたプラズマ中の電子ビームIII
- Effect of Electromagnetic Waves Propagating in the Periphery of Electron Cyclotron Resonance Plasma on the Uniformity
- Three-Dimensional Simulation of Microwave Propagation in an Electron Cyclotron Resonance Plasma
- One-Dimensional Simulation of Microwave Propagation in Electron Cyclotron Resonance Plasmas
- Characteristics of Very High Frequency Plasma Produced with Ladder-Shaped Electrode at High Pressure
- Characteristics of Very-High-Frequency-Excited SiH_4 Plasmas using a Ladder-Shaped Electrode
- Characteristics of Very High Frequency Plasma Produced Using a Ladder-Shaped Electrode
- Production of Inductively Coupled RF Plasma Using a Ladder-Shaped Antenne
- 7a-YN-9 バイポーラ型反射電極を用いたイオン音波ソリトン及びバーストの反射
- 29a-YG-10 イオン波の分散特性に対する負イオンの効果
- 負イオンプラズマ中のイオン波の励起特性
- 負イオンプラズマ中のイオン波の分散関係
- 27a-Q-12 負イオンプラズマ中のイオン波の分散関係
- Dynamic Formation of Excited Helicon Wave Structure and Estimation of Wave Energy Flux Distribution
- Dynamic Behavior of Helicon Wave Produced Plasma
- Effect of Native Oxide upon Formation of Amorphous SiO_x Layer at the Interface of Directly Bonded Silicon Wafers
- 28a-Q-13 ECWプラズマ中の高速電子群発生とミラー磁場配位の関係
- 3p-W-3 電子サイクロトロン波プラズマにおける密度転移の伝播
- 30p-YB-14 電子サイクロトロン波プラズマ中の電子のカオス的加速
- 30p-YB-11 電子サイクロトロン波プラズマにおける密度転移現象III
- 12p-M-2 L-波のトンネル効果と電子サイクロトロン波の励起
- 12p-M-1 電子サイクロトロン波プラズマにおける密度転移現象II
- 28p-Q-3 電子サイクロトロン波プラズマにおける渦構造の発生
- 28p-Q-2 電子サイクロトン波プラズマにおける密度転移現象とプラズマの流れ場
- Patterning Yield of Sub-100-nm Holes Limited by Fluctuation of Exposure and Development Reactions in Synchrotron Radiation Lithography Using Biased Mask Patterns
- Lithographic Performance of a Chemically Amplified Resist Developed for Synchrotron Radiation Lithography in the Sub-100-nm Region
- Dissolution Characteristics and Surface Morphology of Chemically Amplified Resists in X-Ray Lithography
- Production of ECR Mirror Plasma by High Power Millimeter-Wave Radiation : Nuclear Science, Plasmas and Electric Discharges
- ECR Plasma in a High Power Millimeter-Wave Beam (Report IV) : Contribution of Higher Harmonic Resonance Heating(Physics, Process & Instrument)
- ECR Plasma in a High Power Millimeter-Wave Beam (Report III) : Difference in Plasma Property by Axial and Radial Launches(Welding Physics, Process & Instrument)
- ECR Plasma in a High Power Millimeter-Wave Beam (Report II) : Time Variation of Electron Density(Welding Physics, Process & Instrument)
- ECR Plasma in a High Power Millimeter-Wave Beam (Report 1)(Welding Physics, Process & Instrument)
- 28a-Q-11 負イオンを含む多成分プラズマのイオンシース中の現象
- Electron Heating and Control of RF-Produced Plasma Parameters Excited by a Planar, Spiral Antenna
- Effects of Axial Magnetic Field and Faraday Shield on Characteristics of RF Produced Plasma Using Spiral Antenna
- Stress-Enhanced Diffusion of Boron at the Interface of a Directly Bonded Silicon Wafer
- Stochastic Electron Acceleration by an Electron Cyclotron Wave Propagating in an Inhomogeneous Magnetic Field
- Nonlinear Saturation Mechanism of Ion-Ion Instability Due to Particle Trapping Effect
- Estimate of the Negative-Ion Density in O_2/Ar ECR Plasma Utilizing Ion Acoustic Waves : Fluids, Plasmas, and Electric Discharges
- Phantom Exposure of Chemically Amplified Resist in KrF Excimer Laser Lithography
- 30p-YQ-13 バイポーラ型反射電極を用いたイオン音波ソリトン及びバーストの反射 II
- Advances in Patterning Characteristics of Chemically Amplified Resists with an Organic Base
- Multiplate Microwave Launcher for Producing High-Density Electron Cyclotron Resonance Plasmas
- Production Mechanism of a Large-Diameter Uniform Electron Cyclotron Resonance Plasma Generated by a Circular TE_ Mode Microwave
- New Resist Technologies for 0.25-μm Wiring Pattern Fabrication with KrF Lithography
- Spatial Frequency Doubling Method by Image Superimposition for Sub-0.15-μm Optical Lithography
- 27p-Q-9 電子ビーム・プラズマ系における分岐現象
- Spatial Frequency Doubling Method for Sub-0.15-μm Optical Lithography
- Effect of Overcoats in Chemically Amplified Resists against Water and Organic Bases
- The Effect of an Organic Base in Chemically Amplified Resist on Patterning Characteristics Using KrF Lithography
- Metal-Free Acid Generators for Chemically Amplified Monodispersal Polyhydroxystyrene-Based Positive Resist and Post-Exposure Delay Problem
- Hole Pattern Fabrication using Halftone Phase-Shifting Masks in KrF Lithography
- 5a-W-1 電子ビーム・プラズマ系におけるテスト波の伝播II
- 31a-YB-3 電子ビーム・プラズマ系におけるテスト波の伝播
- 5a-W-5 プラズマ中の境界におけるイオン音波ソリトンの反射現象