Yoshida Yoichi | The Institute Of Scientific And Industrial Research Osaka University
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概要
関連著者
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吉田 陽一
阪大産研
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TAGAWA Seiichi
The Institute of Scientific and Industrial Research, Osaka University
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YAMASHITA Yohachi
Power Supply Materials and Devices Research Laboratories, Research and Development Center, Toshiba C
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Tagawa Seiichi
The Institute Of Scientific And Industrial Research
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YOSHIDA Yoichi
The Institute of Scientific and Industrial Research, Osaka University
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Higaki K
Sumitomo Electric Ind. Ltd. Hyogo Jpn
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YAMASHITA Yoshio
SORTEC Corporation
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Ichinose N
Waseda Univ. Tokyo Jpn
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Ichinose Noboru
Toshiba Research Consulting Corporation
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安田 直彦
岐阜大工
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小方 厚
阪大産研
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田川 精一
阪大産研
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折原 宏
名大・理工総研
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小林 孝嘉
東京大学理学系研究科
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Seki S
Osaka Univ. Osaka
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KOZAWA Takahiro
The Institute of Scientific and Industrial Research, Osaka University
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Yamada Y
Nippondenso Co. Ltd. Nishio
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Seki S
Dep. Of Applied Chemistry Graduate School Of Engineering Osaka Univ.
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Yamada Y
Institute For Solid State Physics The University Of Tokyo
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Yamada Yuh
Department Of Metallurgical Engineering Nagoya Institute Of Technology
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Uesu Y
Waseda Univ. Tokyo Jpn
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Uesu Yoshiaki
Department Of Physics Waseda University:advanced Research Center For Science And Engineering Waseda
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Ichinose Noboru
School Of Science And Engineering Waseda University
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大和 英弘
岐阜大工
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Orihara Hiroshi
Nippon Soken Inc.
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IWATA Makoto
Department of Engineering Physics, Electronics and Mechanics, Graduate School of Engineering, Nagoya
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折原 宏
Hokkaido Univ. Sapporo
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YAMADA Yasusada
Advanced Research Center for Science and Engineering,Waseda University
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UESU Yoshiaki
Department of Physics, Waseda University
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OHWA Hidehiro
Department of Electrical and Electronic Engineering, School of Engineering, Gifu University
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YASUDA Naohiko
Department of Electrical and Electronic Engineering, School of Engineering, Gifu University
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Uesu Yoshiaki
Depart. Phys. Waseda Univ.
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近藤 孝文
阪大産研
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法澤 公寛
阪大産研
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楊 金峰
阪大産研
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古澤 孝弘
阪大産研
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Ishibashi Y
九州大
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Saeki Akinori
The Institute Of Scientific And Industrial Research Osaka University
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Saeki Akinori
Osaka Univ. Osaka Jpn
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KOZAWA Takahiro
Nuclear Engineering Research Laboratory, Faculty of Engineering, The University of Tokyo
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UESAKA Mitsuru
Nuclear Engineering Research Laboratory, Faculty of Engineering, The University of Tokyo
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Maple M
Univ. California California Usa
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Oizumi H
Hitachi Ltd. Tokyo Jpn
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Oizumi H
Aset Euvl Lab. Kanagawa Jpn
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Oizumi Hiroaki
Sortec Corporation
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Maeda M
Department Of Engineering Physics Electronics And Mechanics Graduate School Of Engineering Nagoya In
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YAMASHITA Yohachi
Toshiba Materials and Devices Research Laboratories, Toshiba Corp.
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Tsuboi S
Assoc. Super‐advanced Electronics Technol. (aset) Kanagawa Jpn
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菅 晃一
阪大産研
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中島 一久
高エネルギー物理学研究所
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小方 厚
KEK
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中西 弘
KEK
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中島 一久
KEK
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柴田 裕実
東大原総セ
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田川 精一
東大原総セ
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小林 利行
東大原工施
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山本 嘉則
東北大院理
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MATSUDA Masaaki
Advanced Science Research Center, Japan Atomic Energy Research Institute
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SHIRANE Gen
Department of Physics, Brookhaven National Laboratory
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関 修平
大阪大学産業科学研究所
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Seki Shu
The Institute Of Scientific And Industrial Research
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Seki Shuhei
The Institute Of Scientific And Industrial Research Osaka University
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Izumi Mitsuru
Department Of Applied Physics The University Of Tokyo
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上田 徹
東大工
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折原 宏
北大院工
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Kobayashi Tsukasa
Anelva Corporation
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ISHIBASHI Yoshihiro
Department of Applied Physics, School of Engineering, Nagoya University
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上田 徹
東京大学大学院工学系研究科附属原子力工学研究施設
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Shirane G
Department Of Physics Brookhaven National Laboratory
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TAGUCHI Takao
SORTEC Corporation
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YOSHIDA Yoichi
Nuclear Engineering Research Laboratory, Faculty of Engineering, The University of Tokyo
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TAGAWA Seiichi
Research Center for Nuclear Science and Technology, The University of Tokyo
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Shirane Gen
Department Of Physics Brookhaven National Laboratory
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Yasuda Naoki
Department Of Electronic Engineering Faculty Of Engineering Osaka University
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宮 健三
東京大学工学部附属原子力工学研究施設
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Zhang B‐p
Tohoku Univ. Sendai Jpn
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Zhang B‐p
Tohoku National Industrial Research Institute Aist Miti:(present Address)institute For Materials Res
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Noda S
Assoc. Super‐advanced Electronics Technol. (aset) Yokohama Jpn
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Noda Shoji
Toyota Central Research And Development Labs
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Iijima T
Smart Structure Research Center Aist
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Iijima Takashi
Smart Structure Research Center National Institute Of Advanced Industrial Science And Technology (ai
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Iijima Takashi
Materials Engineering Division Tohoku National Industrial Research Institute
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Iijima Takashi
Tohoku National Industrial Research Institute Aist Miti
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Taguchi T
Research Laboratories Nippondenso Co. Ltd.
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Ogawa Tohru
Technology Strategy Development Sony Co. Core Technology & Network Company
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ICHINOSE Noboru
Waseda University, Kagami Memorial Laboratory for Mat. Sci. Tech.
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FUJISHIRO Kouji
Department of Physics
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KIAT Jean-Michel
Laboratoire de Chimie-Physique du Solide
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DKHIL Brahim
Laboratoire de Chimie-Physique du Solide
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NOHEDA Beatriz
Department of Physics, Brookhaven National Laboratory
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Kiat Jean-michel
Laboratoire Structures Proprietes Et Modelisation Des Solides Ecole Centrale
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木村 貴海
原研先端基礎研
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永石 隆二
原研先端基礎研
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吉田 善行
原研先端基礎研
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黒田 隆之助
産業技術総合研究所
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Yamada Y
Tohoku Univ. Sendai Jpn
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小方 厚
広大院先端物質
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加嶋 宏章
阪大産研
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石丸 毅
広大院先端
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阿達 正浩
広大院先端
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斉藤 直子
広大院先端
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鷲尾 方一
早大理工総研
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柏木 茂
早大理工総研
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黒田 隆之助
早大理工総研
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西田 靖
宇都宮大工
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湯上 登
宇都宮大工
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吉田 陽一
東大工原施
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古沢 孝弘
東大工原施
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小林 利明
東大工原施
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上田 徹
東大工原施
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宮 健三
東大工原施
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柴田 裕美
東大原総セ
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吉田 陽一
東大原工施
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古沢 孝弘
東大原工施
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上田 徹
東大原工施
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宮 健三
東大原工施
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栗原 俊一
KEK
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小林 仁
KEK
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榎本 収志
KEK
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大越 隆夫
KEK
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西田 靖
宇大工
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湯上 登
宇大工
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永石 隆二
日本原子力研
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遠藤 彰
住友重機械
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栗原 俊一
高エ研
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阿達 正浩
分子研
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Yamada Y
Advanced Research Institute Waseda University:advanced Science Research Center Japan Atomic Energy R
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柏木 茂
阪大産研
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HASEGAWA Daisuke
Department of Pediatrics, St. Luke's International Hospital
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遠藤 彰
フェムト秒テクノロジー研究機構
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山本 保
阪大産研
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大越 隆夫
高エネルギー加速器研究機構
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柏木 茂
横浜国大教育
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萬 雅史
住友重機械(株)
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萬 雅史
住友重機械工業(株)技術開発センター
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萬 雅史
住友重機械
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青木 康
住友重機械
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楊 金峰
住友重機械
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岡田 康弘
住友重機械
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大越 隆夫
高エ研
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小林 仁
物質構造科学研究所
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榎本 収志
KEK加速器
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MORI Shigeo
Department of Pathology, Institute of Medical Science, University of Tokyo
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Maeda M
Graduate School Of Information Science And Electrical Engineering Kyushu University
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前田 三男
久留米高等専門学校
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前田 三男
九州大学大学院システム情報科学研究院電子デバイス工学部門
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MAEDA Masaki
Department of Engineering Physics, Electronics and Mechanics, Graduate School of Engineering, Nagoya
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青木 康
住友重機械工業(株)技術開発センター
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YANG Jinfeng
The Institute of Scientific and Industrial Research, Osaka University
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KONDOH Takafumi
The Institute of Scientific and Industrial Research, Osaka University
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YOSHIDA Youichi
The Institute of Scientific and Industrial Research, Osaka University
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OKAMOTO Kazumasa
The Institute of Scientific and Industrial Research, Osaka University
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TSUKUDA Satoshi
The Institute of Scientific and Industrial Research, Osaka University
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SUGIMOTO Masaki
Takasaki Radiation Chemistry Research Establishment, Japan Atomic Energy Research Institute
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TANAKA Shigeru
Takasaki Radiation Chemistry Research Establishment, Japan Atomic Energy Research Institute
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TAGAWA Seiichi
ISIR, Osaka University
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KOBAYASHI Kazuo
ISIR, Osaka University
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KAWAMORI Takashi
ISIR, Osaka University
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KOZAWA Takahiro
ISIR, Osaka University
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YOSHIDA Yoichi
ISIR, Osaka University
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TSUJI Shou
The Institute of Scientific and Industrial Research, Osaka University
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NISHIDA Kazutaka
The Institute of Scientific and Industrial Research, Osaka University
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MATSUI Yoshinori
The Institute of Scientific and Industrial Research, Osaka University
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吉田 陽一
阪大・産研
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SEKI Shu
Institute of Scientific and Industrial Research, Osaka University
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KANZAKI Kenichi
Institute of Scientific and Industrial Research, Osaka University
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YOSHIDA Yoichi
Institute of Scientific and Industrial Research, Osaka University
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TAGAWA Seiichi
Institute of Scientific and Industrial Research, Osaka University
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SHIBATA Hiromi
Research Center for Nuclear Science and Technology, University of Tokyo
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ASAI Keisuke
Faculty of Engineering, University of Tokyo
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ISHIGURE Kenkichi
Faculty of Engineering, University of Tokyo
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NAGAHARA Seiji
The Institute of Scientific and Industrial Research, Osaka University
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Itoh Masakazu
Department Of Energy Engineering And Science Nagoya University
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Shimizu S
Nikon Corp. Tokyo Jpn
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Jinfeng Yang
The Institute Of Scientific And Industrial Research Osaka University
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Shimizu Sumito
Main Research Laboratory Nikon Corporation
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YAMAMOTO Naoki
Department of Microbiology, Tokyo Medical and Dental University School of Medicine
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Soga Tetsuo
Department Of Electronics Faculty Of Engineering Nagoya University
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FUJISHIRO Kohji
Department of Physics, Waseda University
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TAZAWA Hidehisa
Department of Physics, Waseda University
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Vlokh Rostislav
Department Of Physics
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Tagawa Seiichi
Institute Of Scientific And Industrial Research Osaka University
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Atoda Nobufumi
Laboratory For Advanced Optical Technology National Institute Of Advanced Industrial Science And Tec
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Atoda N
Sortec Ibaraki Jpn
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Atoda Nobufumi
Sortec
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Shibata Hiromi
Research Center For Nuclear Science And Technology The University Of Tokyo
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Murakami K
静岡大学電子工学研究所
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Suzuki K
Ntt Transmission Systems Lab. Ibaraki Jpn
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Suzuki Kenji
Institute For Materials Research Laboratory Tohoku University
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Yamamoto Naoki
Department Of Bioregulation Research Nagoya City University Medical School
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Yamamoto Naoki
Department Of Physics Tokyo Institute Of Technology
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SUZUKI Ikuo
Department of Electronics,Nagoya Institute of Technology
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Ye Z‐g
Simon Fraser Univ. Bc Can
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Yamada Y
Hosei Univ. Tokyo
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YAMADA Yasusada
Department of Physics, Osaka University
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MATSUO Tadashi
Toppan Printing Co., Ltd.
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Tsuji Shinsuke
Department Of Chemistry Tokyo Institute Of Technology And Crest Japan Science And Technology Corpora
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TERAUCHI Hikaru
Advanced Research Center of Science, School of Science and Technology, Kwansei Gakuin University
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Matsuo Tadashi
Toppan Printing Co. Lid.
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岩田 真
名大院工
著作論文
- 22pTJ-15 アト秒電子バンチの集団的エネルギー損失のシミュレーション(22pTJ 領域2,ビーム物理領域合同(レーザープラズマ加速・高エネルギー密度プラズマ物理),領域2(プラズマ基礎・プラズマ科学・核融合プラズマ・プラズマ宇宙物理))
- 22pTJ-15 アト秒電子バンチの集団的エネルギー損失のシミュレーション(22pTJ 領域2,ビーム物理領域合同(レーザープラズマ加速・高エネルギー密度プラズマ物理),ビーム物理領域)
- 23aZL-8 医療応用を目指したフォトカソード電子銃における電子ビームの光変調(ビームダイナミクス,ビーム源,ビーム物理領域)
- 28pSH-6 フォトニック結晶による可視域放射光の発生
- 27p-H-11 連続電子パンチによるプラズマウェーク場の蓄積効果
- 27p-H-10 東大電子ライナックにおけるプラズマレンズ実験
- 29a-PS-149 レーザーフォトカソードRF電子銃の製作と性能試験
- Experimental Studies of Transverse and Longitudinal Beam Dynamics in Photoinjector
- Subpicosecond Pulse Radiolysis Study of Geminate Ion Recombination in Liquid Benzene
- Nanowire Formation and Selective Adhesion on Substrates by Single-Ion Track Reaction in Polysilanes
- Study on Radiation-Induced Reaction in Microscopic Region for Basic Understanding of Electron Beam Patterning in Lithographic Process (II) : Relation between Resist Space Resolution and Space Distribution of Ionic Species
- Study on Radiation-Induced Reaction in Microscopic Region for Basic Understanding of Electron Beam Patterning in Lithographic Process (I) : Development of Subpicosecond Pulse Radiolysis and Relation between Space Resolution and Radiation-Induced Reactions
- Pulse Radiolysis Studies on Radiation Damage of DNA
- パルスラジオリシス法によるユウロピウム(III)-アミノポリカルボン酸錯体の酸化還元反応の研究
- Photo-Induced Reaction Dynamics in Poly (di-n-hexylsilylene) by Excimer Laser Flash Photolysis
- 6p-YC-3 有機凝縮系のパルスラジオリシス : ジェミネートイオン再結合過程
- Positive-Negative Inversion of Silicon Based Resist Materials:Poly(di-n-hexylsilane)for Ion Beam Irradiation
- Proton Transfer to Melamine Crosslinkers in X-Ray Chemically Amplified Negative Resists Studied by Time-Resolved and Steady-State Optical Absorption Measurement
- ジェミネート再結合過程および初期空間分布に関する研究
- Radiation-Induced Acid Generation Reactions in Chemically Amplified Resists for Electron Beam and X-Ray Lithography
- Study of Radiation-Induced Reactions in Chemically Amplified Resists for Electron Beam and X-Ray Lithography
- Nonlinear Optical Study of Phase Transition in Lead Magnesium Niobate
- Optical Observation of Heterophase and Domain Structures in Relaxor Ferroelectrics Pb(Zn_Nb_)O_3/9% PbTiO_3
- Inclusion Complexation of 4-Biphenylcarboxylate, 4-Biphenylacetate, and 4-Biphenylsulfonate with α-Cyclodextrin, Studied by Pulse Radiolysis
- Determination of Association Constants for Cyclodextrin Inclusion Complexation by Pulse Radiolysis
- Transient Species Induced in X-ray Chemically Amplified Positive Resists:Post-Exposure Delay Effect
- Effects of Impurities on Processes of Acid Generation in Chemically Amplified Resists for Electron Beam and X-Ray Lithography
- Pressure Dependence of Piezoelectric Properties of Pb(Zn_Nb_)O_3-PbTiO_3 Binary System Single Crystal near a Morphotropic Phase Boundary
- Effect-of Electric Fields on Domain Structure and Dielectric Properties of Pb(ln_Nb_)0_3-PbTi0_3 near Morphotropic Phase Boundary
- Crystal Growth and Some Properties of Lead Indium Niobate-Lead Titanate Single Crystals Produced by Solution Bridgman Method
- Crystal Growth and Dielectric Properties of Solid Solutions of Pb(Yb_Nb_)O_3-PbTiO_3 with a High Curie Temperature near a Morphotropic Phase Boundary
- Radical Cation of Dodecamethylcyclohexagermane Generated by Pulse Radiolysis
- Radical Anions of Oligogermanes, Me(Me_2Ge)_nMe(n=2, 3, 5, and 10)Generated by Pulse Radiolysis
- Growth, Electric and Thermal Properties of Lead Scandium Niobate-Lead Magnesium Niobate-Lead Titanate Ternary Single Crystals
- Electroplated Reflection Masks for Soft X-Ray Projection Lithography
- Symmetry of High-Piezoelectric Pb Based Complex Perovskites at the Morphotropic Phase Boundary : II. Theoretical Treatment
- Symmetry of High-Piezoelectric Pb-Based Complex Perovskites at the Morphotropic Phase Boundary : I. Neutron Diffraction Study on Pb(Zn_Nb_)O_3-9%PbTiO_3
- Optical and Structural Studies of Long-Range Order Development in Relaxor Ferroelectrics : Condensed Matter: Electronic Properties, etc.
- Wet-silylation Process for X-ray and EUV Lithographies
- X-Ray Mask Distortion Induced in Back-Etching Preceding Subtractive Fabrication: Resist and Absorber Stress Effect
- Highly Sensitive and Stress-Free Chemically Amplified Negative Working Resist, TDUR-N9, for 0.1 μm Synchrotron Radiation (SR) Lithography
- Reduction of X-Ray Irradiation-Induced Pattern Displacement of SiN Membranes Usirng H^+ Ion Implantation Technique
- X-Ray Lithography with a Wet-Silylated and Dry-Developed Resist
- Crystal Growth of Pb(In_Nb_)0_3-Pb(Mg_Nb_)0_3-PbTiO_3 and Pb(Sc_Nb_0_3-Pb(Mg_Nb_)03-PbTi0_3 Piezoelectric Single Crystals Using the Solution Bridgman Method
- Large Piezoelectric Constant of High-Curie-Temperature Pb(In_Nb_)O_3-Pb(Mg_Nb_)-PbTiO_3 Ternary Single Crystal near Morphotropic Phase Boundary
- An Improved Phased Array Ultrasonic Probe Using 0.91Pb(Zn_Nb_)O_3-0.09PbTiO_3 Single Crystal
- Piezoelectric Properties of a High Curie Temperature Pb(In_Nb_)O_3-PbTiO_3 Binary System Single Crystal near a Morphotropic Phase Boundary
- Temperature Dependence of Piezoelectric Properties of a High Curie Temperature Pb(In_Nb_)O_3-PbTiO_3 Binary System Single Crystal near a Morphotropic Phase Boundary
- Fine Grained Relaxor Dielectric Ceramics Prepared by Hydrothermally Synthesized Powder
- Dielectric and Piezoelectric Properties of 0.93Pb(Zn_Nb_)O_3-0.07PbTiO_3 Piezoelectric Single Crystals for Medical Array Transducers
- Temperature Dependence of Dielectric and Piezoelectric Properties of Pb (Zn_Nb_) O_3-PbTiO_3 Piezoelectric Single Crystals(Electrical Properties of Condensed Matter)
- Effect of Molecular Mass of B-site Ions on Electromechanical Coupling Factors of Lead-Based Perovskite Piezoelectric Materials
- Effects of B-site Ions on the Electromechanical Coupling Factors of Pb(B'B")O_3-PbTiO_3 Piezoelectric Materials
- Phase Stability, Dielectric and Piezoelectric Properties of the Pb(Sc_Nb_)O_3-Pb(Zn_Nb_)O_3-PbTiO_3 Ternary Ceramic Materials
- Effect of Pb_(Al_Nb_)O_3 on Structure and Electrical Properties of Lead Titanate Thin Films Prepared by Chemical Solution Deposition Process(Electrical Properties of Condensed Matter)
- Electrical and Physical Properties of Lead Aluminum Niobate-Lead Titanate Ferroelectric Thin Films Prepared by Chemical Solution Deposition Process : Electrical Properties of Condensed Matter
- Crystal Growth and Electrical Properties of Lead-Free Piezoelectric Material (Na_Bi_)TiO_3-BaTiO_3
- Crystal Growth of Pb[(Zn_Nb_)_0.91Ti_]O_3 Using a Crucible by the Supported Bridgman Method
- Crystal Growth and Mechanical Properties of Pb[(Zn_Nb_)_Ti_]O_3 Single Crystal Produced by Solution Bridgman Method
- Simulation and Fabrication Process for a Medical Phased Array Ultrasonic Probe using a 0.91Pb(Zn_Nb_)O_3-0.09PbTiO_3 Single Crystal
- Improved Growth of Large Lead Zinc Niobate Titanate Piezoelectric Single Crystals for Medical Ultrasonic Transducers