Matsuo Masayuki | Graduate School Of Science And Technology Niigata University
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概要
関連著者
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Matsuo Masayuki
Graduate School Of Science And Technology Niigata University
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松柳 研一
Theoretical Nuclear Physics Laboratory Riken Nishina Center:yukawa Institute For Theoretical Physics
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Matsuyanagi Kenichi
Department Of Physics Graduate School Of Science Kyoto University
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KOBAYASI Masato
Department of Physics, Graduate School of Science, Kyoto University
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Nakatsukasa Takashi
Institute of Physics & Center for Computational Sciences, University of Tsukuba
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NAKATSUKASA Takashi
Theoretical Nuclear Physics Laboratory, RIKEN Nishina Center
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MATSUO Masayuki
Department of Physics, Niigata University
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松柳 研一
理研仁科セ
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松柳 研一
京都大学大学院理学研究科
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NAKATSUKASA Takashi
Physics Department, Tohoku University
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Matsuo M
Department Of Physics Niigata University
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MATSUYANAGI Kenichi
Department of Physics, Graduate School of Science, Kyoto University
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Matsuyanagi Kenichi
Theoretical Nuclear Physics Laboratory Riken Nishina Center
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Nakatsukasa Takashi
Theoretical Nuclear Physics Laboratory Riken Nishina Center
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Nakatsukasa T
Physics Department Tohoku University
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Kobayashi Masanori
Department Of Physics Graduate School Of Science Kyoto University
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Kobayashi Masato
Department Of Bioengineering Tokyo Institute Of Technology
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NAKATSUKASA Takashi
Institute of Physics and Center for Computational Science, University of Tsukuba
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KOBAYASHI Masato
Department of Electronics, Kyushy University
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Nakatsukasa Takashi
Physics Department Tohoku University
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Suzuki Toru
Department Of Ubiquitous Preventive Medicine Graduate School Of Medicine The University Of Tokyo
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NISHIZAKI Shigeru
Faculty of Humanities and Social Sciences, Iwate University
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Ooba Hiroshi
Graduate School Of Science And Technology Niigata University
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AIBA HIROKAZU
Kyoto Koka Women's College
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Aiba Hirokazu
Kyoto Koka Women's College
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Serizawa Yasuyoshi
Graduate School of Science and Technology, Niigata University
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Mizuyama Kazuhito
Graduate School of Science and Technology, Niigata University
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Nishizaki Shigeru
Faculty Of Humanities And Social Sciences Iwate University
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Suzuki Toru
Department Of Food Science And Technology Tokyo University Of Marine Science And Technology
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Mizuyama Kazuhito
Graduate School Of Science And Technology Niigata University
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Serizawa Yasuyoshi
Graduate School Of Science And Technology Niigata University
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Suzuki Toru
Department Of Cardiology Sakakibara Heart Institute
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Suzuki Toru
Department Of Biosphere And Environmental Sciences Faculty Of Environment Systems Rakuno Gakuen Univ
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MATSUO MASAYUKI
Graduate School of Science and Technology, Niigata University
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MATSUYANAGI Kenichi
Department of Physics, Kyoto University
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Suzuki Toru
Department of Applied Electronics, Faculty of Industrial Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba 278-8510, Japan
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Suzuki Toru
Department of Physics, Tokyo Metropolitan University
著作論文
- Collective Paths Connecting the Oblate and Prolate Shapes in ^Se and ^Kr Suggested by the Adiabatic Self-Consistent Collective Coordinate Method(Nuclear Physics)
- Collective Path Connecting the Oblate and Prolate Local Minima in ^Se
- Application of the Adiabatic Self-Consistent Collective Coordinate Method to a Solvable Model of Prolate-Oblate Shape Coexistence(Nuclear Physics)
- Fluctuation of the strength function associated with giant resonances : Influence of doorway states(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- Deformation in neutron-rich Ti, Cr and Fe isotopes in the 2D Skyrme-Hartree-Fock-Bogoliubov approach(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- Continuum quasiparticle linear response theory using the realistic Skyrme functional for multipole response of exotic nuclei(International Workshop on Nuclear Structure-New Pictures in the Extended Isospin Space(NS07)-)
- Collective Excitations and Pairing Effects in Drip-Line Nuclei : Continuum RPA in Coordinate-Space HFB
- Collective Path Connecting the Oblate and Prolate Local Minima in ^Se
- Application of the Adiabatic Self-Consistent Collective Coordinate Method to a Solvable Model of Prolate-Oblate Shape Coexistence
- Collective Paths Connecting the Oblate and Prolate Shapes in ^Se and ^Kr Suggested by the Adiabatic Self-Consistent Collective Coordinate Method(Nuclear Physics)