Suzumura Yoshikazu | Department Of Physics Faculty Of Science Tohoku University
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概要
関連著者
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Suzumura Yoshikazu
Department Of Physics Faculty Of Science Tohoku University
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Suzumura Yoshikazu
Department Of Physics Nagoya University
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SUZUMURA Yoshikazu
Department of Physics, Nagoya University
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Suzumura Y
名古屋大 大学院理学研究科
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SUZUMURA Yoshikazu
Department of Physics, Faculty of Science Tohoku University
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Kobayashi Akito
Department Of Physics Division Of Material Science Nagoya University
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Tsuchiizu Masahisa
Department Of Physics Nagoya University
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Tsuchiizu Masahisa
Department Of Physics Nagoya University:(present) Yukawa Institute For Theoretical Physics Kyoto Uni
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Suzumura Yoshikatsu
Department Of Physics Nagoya University:crest Japan Science And Technology Corporation (jst)
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Kobayashi Akito
Department Of Physics Nagoya University
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Fukuyama Hidetoshi
Institute For Solid State Physics The University Of Tokyo
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Kobayashi A
Department Of Physics Division Of Material Science Nagoya University
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FUKUYAMA Hidetoshi
Institute for Materials Research, Tohoku University
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KOBAYASHI Akito
Department of Physics,Nagoya University
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KATAYAMA Shinya
Department of Physical Electronics, Tokyo Institute of Technology
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Katayama Shinya
Department Of Physics Nagoya University
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Katayama Shinya
Department Of Physical Electronics Tokyo Institute Of Technology:(present Address)nippon Sheet Glass
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Sugiura Muneo
Department Of Physics Nagoya University
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Saso Tetsuro
Department Of Physics Faculty Of Science Saitama University
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Yoshioka Hideo
Department Of Oral And Maxillofacial Surgery Osaka Rosai Hospital
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SUGIURA Muneo
Department of Physics, Nagoya University
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Kobayashi A
Institute For Advanced Research Nagoya University
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Yoshioka Hideo
Department Of Physics Faculty Of Science University Of Tokyo
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Tanemura Noriko
Department Of Physics Nagoya University
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Ishino Kanji
Department Of Physics Tohoku University
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Fukuyama Hidetoshi
Institute For Solid State Physics University Of Tokyo
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Fukuyama Hidetoshi
Department Of Physics Univercsity Of Tokyo
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Yoshioka Hideo
Department of Physics, Nagoya University
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Yoshioka H
Department Of Materials Science And Engineering Kyoto Universit
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Yoshioka H
Nara Women's Univ. Nara
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Yoshioka Hideo
Department Of Physics Nara Women's University
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Tomio Yuh
Department Of Physics Nagoya University
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Kobayashi Akito
Institute For Advanced Research Nagoya University:department Of Physics Nagoya University
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Omori Yukiko
Department Of Physics Nagoya University
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Kobayashi Akito
Department Of Physics Nagoya University:institute For Advanced Research Nagoya University
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Nakamura Naoki
Department Of Applied Chemistry Oita University
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Okabe Yutaka
Department Of Applied Chemistry Science And Engineering Waseda University
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KOBAYASHI Akito
Institute for Advanced Research, Nagoya University
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Fukuyama Hidetoshi
The Institute For Solid State Physics The University Of Tokyo
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Suzumura Yoshikazu
Department Of Physics Tohoku University
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TOMIO Yuh
Department of Physics, Nagoya University
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Ogawa Takuhiro
Department Of Physics Nagoya University
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Itakura Toshifumi
Department Of Physics Kyoto University
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Suzumura Yoshikazu
Department of Physics,Nagoya University
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Fukuyama Hidetoshi
Department of Applied Physics and Research Institute for Science and Technology, Tokyo University of Science, Shinjuku, Tokyo 162-8601, Japan
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FUKUYAMA Hidetoshi
Department of Applied Physics, Tokyo University of Science
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Fujiwara H
Department Of Chemistry Graduate School Of Science Osaka Prefecture University And Crest Jst
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FUSEYA Yuki
Department of Physics, University of Tokyo
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Giamarchi Thierry
Laboratoire De Physique Des Solides
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Bourbonnais Claude
Regroupement Quebecois Sur Les Materiaux De Pointe Departement De Physique Universite De Sherbrooke
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HASEGAWA Yasumasa
Institute for Solid State Physics,University of Tokyo
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Fukuyama Hidetoshi
Department Of Chemistry Graduate School Of Science Osaka Prefecture University And Crest Jst
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Fujiwara Hideki
Department Of Organic And Polymeric Materials Faculty Of Engineering Tokyo Institute Of Technology
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Bonnet Marie-laure
Department Of Physics Nagoya University:laboratoire De Chimie Ecole Normale Superieure De Lyon Umr 5
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Okabe Y
Tokyo Metropolitan Univ. Tokyo
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Fuseya Yuki
Department Of Physics Nagoya University
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Isobe Masato
Department Of Physics Nagoya University
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SASO Tetsuro
Department of Physics, Saitama University
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Saso T
Saitama Univ. Saitama
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Saso Tetsuro
Department Of Physics Tohoku University
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Fukuyama Hidetoshi
Department Of Applied Physics Faculty Of Science Tokyo University Of Science
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Hasegawa Y
Department Of Material Science Graduate School Of Science Himeji Institute Of Technology Ako
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Hasegawa Y
Himeji Inst. Of Technol. Hyogo
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Hasegawa Yasumasa
Institute For Solid State Physics University Of Tokyo
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NONOYAMA Yoshito
Department of Physics, Nagoya University
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Fukuyama Hidetoshi
Department Of Chemistry Graduate School Of Science Osaka Prefecture University
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Nonoyama Yoshito
Department Of Physics Nagoya University
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Nakamura Nobuhiro
Department Of Nuclear Engineering Kyoto University
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ITAKURA Toshifumi
Department of Physics Nagoya University
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Tsuchizu Masahisa
Department Of Physics Nagoya University
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Hasegawa Yasumasa
Department Of Material Science Graduate School Of Science Himeji Institute Of Technology
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ISHINO Kanji
Department of Physics, Tohoku University
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NAKAMURA Nobuhiro
Department of Physics, Science University of Tokyo
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Suzumura Yoshikazu
Department of Physics, Nagoya University, Nagoya 464-8602, Japan
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Hasegawa Yasumasa
Department of Material Science, Graduate School of Science, Himeji Institute of Technology
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Kobayashi Akito
Department of Physics, Nagoya University, Nagoya 464-8602, Japan
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Fuseya Yuki
Department of Materials Engineering Science, Osaka University, Toyonaka, Osaka 560-8531, Japan
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Nishine Tatsuro
Department of Physics, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan
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Piéchon Frédéric
Laboratoire de Physique des Solides, CNRS UMR 8502, Universite Paris-Sud, F-91405 Orsay Cedex, France
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ITO Hiroshi
Department of Internal Medicine, Division of Cardiovascular Medicine, Akita University Faculty of Me
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Tanaka Yasuhiro
Department Of Cardiovascular Medicine Tokyo Medical And Dental University
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Isobe Masahiko
Materials Design And Characterization Laboratory Institute For Solid State Physics The University Of
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SUZUKI Shinichi
Department of Cardiovascular Surgery, Yokohama City University School of Medicine, Cardiovascular Ce
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Aoyama Takuma
Department Of Cardiology Gifu University Graduate School Of Medicine
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Aoyama Takuma
Department Of Physics Nagoya University
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Robert Vincent
Laboratoire De Chimie Ecole Normale Superieure De Lyon Umr 5182
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Isobe Masahiko
Institute For Materials Research Tohoku University
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Giamarchi T
Univ. Paris‐sud Orsay Fra
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Kato Masaru
Department Of Analytical Chemistry School Of Pharmaceutical Sciences University Of Shizuoka
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Machida Kazushige
Department Of Physics Kyoto University
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Ono Yoshiaki
Department Of Geriatric Dentistry Osaka Dental University
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FUKUYAMA Hidetoshi
The Institute for Solid State Physics,The University of Tokyo
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Nakamura Naoki
Department Of Physics Nagoya University
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Bonnet Marie-Laure
Department of Physics, Nagoya University
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Ogata Masao
Department Of Basic Science Graduate School Of Arts And Sciences The University Of Tokyo
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Ito Hiroshi
Department Of Cardiovascular And Respiratory Medicine Akita University Graduate School Of Medicine
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Isobe M
Department Of Physics Nagoya University
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Yoshioka Hideo
Department Of Physics Nagoya University
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NOGUCHI Kouji
Department of Physics, Nagoya University
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ORIGNAC Edmond
Laboratoire de Physique Theorique
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Nagi A.d.s.
Department Of Physics University Of Waterloo
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Sugiura M
Department Of Physics Nagoya University
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Noguchi Kouji
Department Of Physics Nagoya University
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MAEKAWA Yukiko
Department of Physics, Nagoya University
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TSUCHIZU Masahisa
Department of Physics, Nagoya University
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Suzumura Yoshikazu
Department Of Physics Nagoya University:crest Japan Science And Technology Corporation (jst)
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Suzumura Yoshikazu
Department Of Physics Nagoya University:crest Japan Science And Technology Corporation(jst)
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Okabe Yutaka
Department Of Physics Tohoku University
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OGAWA Takuhiro
Department of Physics,Nagoya University
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KURIHARA Yasunari
Research Institute for Higher Education Programs, Hokkaido Tokai University
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TANEMURA Noriko
Department of Physics,Nagoya University
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WAKITA Genta
Department of Physics, Nagoya University
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Maekawa Yukiko
Department Of Physics Nagoya University
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Kurihara Yasunari
Research Institute For Higher Education Programs Hokkaido Tokai University
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Okabe Yutaka
Department Of Pure And Applied Sciences Universtiy Of Tokyo
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Tomio Y
Department Of Physics Nagoya University
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TAKANO Ken-ichi
Toyota Technological Institute
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Ishino K
Department Of Physics Tohoku University
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Wakita Genta
Department Of Physics Nagoya University
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Suzumura Yoshikazu
Departmint Of Physics Nagoya University
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Suzumura Yoshikazu
Department Of Physics University Of Tokyo
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Ito Hiroshi
Department Neurosurgery Tokyo Medical College
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Fukuyama Hidetoshi
Institute For Solid State Physics University Of Tokyo:department Of Physics Faculty Of Science Unive
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Tanemura Norio
Department Physics Nagoya University
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SUZUMURS Yoshikazu
Department Physics,Nagoya University
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Tanaka Yasuhiro
Department Of Advance Materials Science Faculty Of Engineering Kagawa University
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Suzumurs Yoshikazu
Department Physics Nagoya University
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Itakura Toshifumi
Departmint Of Physics Nagoya University
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Tanaka Yasuhiro
Department Of Physics University Of Tokyo
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Suzuki Shinichi
Department Of Aeronautical Engineering Nagoya University
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Suzuki Shinichi
Department Of Physics Nagoya University
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Fuseya Yuki
Univ. Tokyo Tokyo
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SUZMURA Yoshikazu
Department of Physics,Nagoya University
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Takano Ken′ichi
Toyota Technological Institute
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Ogata Masao
Department Of Basic Science Graduate School Of Arts And Science University Of Tokyo
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Suzumura Yoshikazu
Department of Physics, Tohoku University
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Isobe Masato
National Institute for Materials Science (NIMS)
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Bonnet Marie-Laure
Department of Physics, Nagoya University, Nagoya 464-8602, Japan
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Suzumura Yoshikazu
Department of Physics, Nagoya University, Nagoya 464-8602
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Suzumura Yoshikazu
Department of Physics, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602
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Kajiwara Kazuto
Department of Physics, Nagoya University, Nagoya 464-8602
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Bourbonnais Claude
Départment de Physique, Université de Sherbrooke, Sherbrooke, Québec J1K-2R1, Canada
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Choji Takeshi
Department of Physics, Nagoya University, Nagoya 464-8602, Japan
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Robert Vincent
Université de Lyon, Laboratoire de Chimie, Ecole Normale Supérieure de Lyon, CNRS, F-69364 Lyon, France
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Ishibashi Shoji
Nanosystem Research Institute (NRI) ``RICS'', AIST, Tsukuba, Ibaraki 305-8568, Japan
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Seo Hitoshi
Condensed Matter Theory Laboratory, RIKEN, Wako, Saitama 351-0198, Japan
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SUZUMURA Yoshikazu
Department of Physics,Tohoku University
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Suzumura Yoshikazu
Department of Physics, Nagoya University:CREST, Japan Science and Technology Corporation (JST)
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Ishibashi Shoji
Nanosystem Research Institute (NRI) "RICS", AIST, Tsukuba, Ibaraki 305-8568, Japan
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Katayama Shinya
Department of Physics, Nagoya University
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Robert Vincent
Université de Lyon, Laboratoire de Chimie, Ecole Normale Supérieure de Lyon, CNRS, F-69364 Lyon, France
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GIAMARCHI Thierry
Laboratoire de Physique des Solides, Universite Paris-Sud
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Giamarch Thierry
Laboratoire de Physique des Solides, Universite Paris-Sud
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Fukuyama Hidetoshi
Department of Applied Physics and Research Institute for Science and Technology, Tokyo University of Science, Tokyo 162-8601
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Saso Tetsuro
Department of Physics,Tohoku University
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Itakura Toshifumi
Research Center for Micro-Structure Devices, Nagoya Institute of Technology,
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Itakura Toshifumi
Department of Physics,Nagoya University
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Nagi A.D.S.
Department of Physics,University of Waterloo
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Tanemura Noriko
Department of Physics, Nagoya University
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NAKAMURA Naoki
Department of Physics,Nagoya University
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BOURBONNAIS Claude
Regroupement Quebecois sur les Materiaux de Pointe, Departement de physique, Universite de Sherbrooke
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Bourbonnais Claude
Départment de Physique, Université de Sherbrooke, Sherbrooke, Québec J1K-2R1, Canada
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KOBAYASHI Akito
Department of Physics, Nagoya University
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Kobayashi Akito
Department of Physics, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, Japan
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Kobayashi Akito
Institute for Advanced Research, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602
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Goerbig Mark
Laboratoire de Physique des Solides, CNRS UMR 8502, Universite Paris-Sud, F-91405 Orsay Cedex, France
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FUSEYA Yuki
Department of Physics, Nagoya University
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Piéchon Frédéric
Laboratoire de Physique des Solides, CNRS UMR 8502, Université Paris-Sud, F-91405 Orsay Cedex, France
著作論文
- Interplay of Lattice Dimerization and Charge Ordering in One-Dimensional Quarter-Filled Electron Systems(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Charge-Density-Wave Formation in the Doped Two-Leg Extended Hubbard Ladder (Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Roles of Interchain Hopping in Two Coupled Chains of Tomonaga Model
- Two Coupled Chains of Tomonaga Model
- Correlation Effects in a One-Dimensional Quarter-Filled Electron System with Repulsive Interactions : Condensed Matter: Electronic Properties, etc.
- Crossover between High and Low Energy-States in Two-Coupled Chains of Tomonaga Model : Condensed Matter and Statistical Physics
- 24pTF-14 Ab initio calculations on the (TTM-TTP)I_3 compound
- Possible Metastable State Triggered by Competition of Peierls State and Charge Ordered State(Condensed matter : electronic structure and electrical, magnetic, and optical properties)
- Role of Interlayer Electron Hopping for Spin Density Wave State in the Zero-Gap Organic Conductor(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Massless Fermions in Organic Conductor(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Pressure-Induced Zero-Gap Semiconducting State in Organic Conductor α-(BEDT-TTF)_2I_3 Salt(Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
- Electric Conductivity of the Zero-Gap Semiconducting State in α-(BEDT-TTF)_2I_3 Salt(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Superconductivity in Charge Ordered Metal for Quasi-Two-Dimensional Organic Conductor(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Superconductivity in Charge Ordered Organic Conductor : α-(ET)_2I_3 Salt(Condensed matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Mean Field Theory of RVB and Superconductivity
- Mean Field Theory of Superconductivity in Strong Correlation
- Localization and Interaction in One-Dimensional Electron Systems
- Impurity-Induced Soliton Formation in Quasi-One Dimensional Superconducting State
- Role of Interchain Hopping in the Magnetic Susceptibility of Quasi-One-Dimensional Electron Systems(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Effect of Intersite Repulsions on Magnetic Susceptibility of One-Dimensional Electron Systems at Quarter Filling(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Role of Interchain Hopping in Two Disordered Chains of Spinless Fermions : Condensed Matter: Electronic Properties, etc.
- 25. Localization-Delocalization Transition by Interactions in One Dimensional Fermion Systems(Theories,III. One Dimensional Systems)
- Role of Repulsive Interactions for the Spin-Peierls Transition Temperature in One-Dimensional Half-Filled Electron Systems
- Role of Repulsive Interactions for the Spin-Peierls Transition Temperature in One-Dimensional Half-Filled Electron Systems
- Competition of Dimerization and Charge Ordering in the Spin-Peierls State of Organic Conductors
- Correlation Effect on Peierls Transition
- Hall Effect and Orbital Diamagnetism in Zerogap State of Molecular Conductor α-(BEDT-TTF)_2I_3(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Mechanism of Superconductivity in Quasi-Two-Dimensional Organic Conductor β-(BDA-TTP) Salts(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Role of Charge Density Wave in Superconductivity of Organic Conductor α-(BEDT-TTF)_2NH_4Hg(SCN)_4 Salt(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Renormalized Inter-Chain Hopping vs Charge Gap in Two Coupled Chains
- On the Mott Glass in the One-Dimensional Half-Filled Charge Density Waves
- Spin Defects in Spin-Peierls Systems
- Charge-Fluctuation-Induced Superconducting State in Two-Dimensional Quarter-Filled Electron Systems (Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Berry curvature of the Dirac particle in α-(BEDT-TTF)2I3
- Role of Commensurability Energy in Impurity Pinning of One-Dimensional Charge Density Waves
- Quantum Fluctuation of Pinned Charge Density Waves vs Superconducting Fluctuation in One-Dimensional Conductors
- Quantum Monte Carlo Study on Impurity Pinning in One-Dimensional Interacting Electron Systems-Competition between Charge Density and Superconducting Fluctuations-
- The Impurity Pinning of a Spin-Density Wave in One-Dimensional Interacting Electron Systems
- Transition Temperature Enhancement Due to Aniferromagnetic Fluctuations in High-T_c Oxide Superconductors
- Novel Aspect of the Critical Temperature of One-Dimensional Charge-Density-Wave Superconductors
- Density of States of Strongly Correlated Electrons in DCNQI-Cu Salts
- Transverse Incommensurability in Two-Coupled Chains of Quarter-Filled Spin-Density-Waves : Condensed Matter: Electronic Properties, etc.
- Effects of Charge Ordering on Spin-Wave of Quarter-Filled Spin-Density-Wave States
- Effect of Anion Lattice on SDW States in Quarter-Filled Organic Conductors
- Boundary Effect on NMR Relaxation Rate for Tomonaga-Luttinger Model(Condensed matter : electronic structure and electrical, magnetic, and optical properties)
- Role of Phase Variables in Quarter-Filled Spin Density Wave States : Condensed Matter: Electronic Properties, etc.
- Role of Collective Mode for Optical Conductivity and Reflectivity in Quarter-Filled Spin-Density-Wave State(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Effect of the Antiferromagnetic Fluctuation on a One-Dimensional Electron System
- Theory of Pressure Dependence of the Upper Transition Temperature of TTF-TCNQ
- Localization-Delocalization Transition by Interactions in One-Dimensional Fermion Systems
- NMR Relaxation Rate of Impure Anisotropic Quasi-One-Dimensional Superconductors
- Interplay of Impurity Pinning and Superconducting States in Quasi-One-Dimensional Conductors
- Comment on Density of States of Tomonaga-Luttinger Model at Finite Temperatures
- Zero-Gap State in Organic Conductor \alpha-(BEDT-TTF)2NH4Hg(SCN)4
- Mechanism for the Singlet to Triplet Superconductivity Crossover in Quasi-One-Dimensional Organic Conductors
- Multi-Orbital Molecular Compound (TTM-TTP)I3: Effective Model and Fragment Decomposition
- Collective Modes of SDW with One-Dimensional Quarter-Filled Band
- Strongly Correlated Electrons in Mixed-Valence Conductors DCNQI-Cu Salts
- Coupled Fluctuations of SDW with One-Dimensional Quarter-Filled Band : Condensed Matter and Statistical Physics
- Theory of Antiferromagnetic Superconductors in the Presence of Nonmagnetic Impurities : One-Dimensional Model : Condensed Matter and Statistical Physics
- Effect of a Sinusoidal Magnetic Field on Superconductors in One-Dimensional Model
- Mean-Field Theory of Mixed-Valence Conductors (R_1, R_2-DCNQI)_2 Cu
- Anderson Localization in One-Dimensional Interacting Electron Systems
- Commensurability Energy vs.Anion Potential in Organic Spin Density Waves
- Tilted-Cone Induced Cusps and Nonmonotonic Structures in Dynamical Polarization Function of Massless Dirac Fermions
- Tilted-Cone-Induced Easy-Plane Pseudo-Spin Ferromagnet and Kosterlitz–Thouless Transition in Massless Dirac Fermions
- Dynamical Response Function of 2k_F-SDW for the Tomonaga-Luttinger Model
- Commensurate-Incommensurate Transition in SDW States of Quasi-One-Dimensional Organic Conductors
- First Order Phase Transition of TTF-TCNQ under High Pressure
- Electronic Density of States for Quasi-One-Dimensional Charge Density Waves
- Peierls Transition of Strongly Correlated DCNQI-Cu Salts
- Interchain Coupling in Quasi-One-Dimensional Superconductors
- Novel Phase Transition in Quarter-Filled SDW State with Dimerization
- Magnetic Susceptibility of Antiferromagnetic Superconductors in One-Dimensional Model
- Fulde-Ferrell State of Antiferromagnetic Superconductors in One-Dimensional Model
- Effect of a Homogeneous Magnetic Field on Antiferromagnetic Superconductors in One-Dimensional Model. II
- Momentum Distribution of Quasi-One-Dimensional Spin Density Wave States
- Interplay of Charge Density and Spin Density in DCNQI-Cu Salts
- Collective Modes and Magnetic Susceptibility of SDW State with One-Dimensional Half-Filled Band
- The Effect of Thermal Fluctuation on Spectral Function for the Tomonaga-Luttinger Model : Condensed Matter and Statistical Physics
- New Plasmon and Filtering Effect in a Pair of Tilted-Dirac Cone
- Collective Modes and Response Functions for the BGD Model
- Effects of Zero Line and Ferrimagnetic Fluctuation on Nuclear Magnetic Resonance for Dirac Electrons in Molecular Conductor \alpha-(BEDT-TTF)
- Zero-Gap State in \alpha-(BEDT-TTF)
- Dirac Electron in Organic Conductor \alpha-(BEDT-TTF)
- Properties of the CDW Ordered State in Coupled Chains of the BGD Model
- Inversion Symmetry and Wave-Function Nodal Lines of Dirac Electrons in Organic Conductor \alpha-(BEDT-TTF)
- The Density of States of the Tomonaga-Luttinger Model
- Novel Collective Mode in Quarter-Filled SDW States with Next-Nearest-Neighbor Coulomb Interaction
- Zero-Gap State in α-(BEDT-TTF)₂I₃ under Hydrostatic Pressure
- Commensurate-Incommensurate Transition Perpendicular to Chains in Quasi-One-Dimensional Quarter-Filled SDW State
- Quantum Effect on the Mott Glass State in One-Dimension(Condensed matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Effects of Zero Line and Ferrimagnetic Fluctuation on Nuclear Magnetic Resonance for Dirac Electrons in Molecular Conductor α-(BEDT-TTF)₂I₃
- Spin-Peierls Transition Temperature in Quarter-Filled Organic Conductors(Condensed Matter : Electronic Structure, Electrical, Magnetic and Optical Properties)
- Theoretical Study on the Cahrge Gap of Organic Conductor-Bechgaard Salts-