HAYASHI Akihisa | Institute for Nuclear Study, University of Tokyo

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概要

• 同名の論文著者
• Institute for Nuclear Study, University of Tokyoの論文著者

関連著者

• HAYASHI Akihisa

  Department of Physics, Fukui University

• HAYASHI Akihisa

  Department of Physics, Kyoto University

• HAYASHI Akihisa

  Institute for Nuclear Study, University of Tokyo

• HAYASHI Akihisa

  Department of Applied Physics, Fukui University

• Hayashi Akihisa

  Department Of Applied Physics Fukui University

• Hayashi A

  Department Of Applied Physics Fukui University

• Hayashi Akihisa

  Institute For Nuclear Study University Of Tokyo

• YAMAMURA Masatoshi

  Department of Pure and Applied Physics, Faculty of Engineering Science, Kansai University

• YAMAMOTO Hiroshi

  Department of Macromolecular Science, Graduate School of Science, Osaka University

• HORIBE Minoru

  Department of Education, Fukui University

• SAITO Sakae

  Department of Physics, Nagoya University

• HASHIMOTO Takaaki

  Department of Applied Physics, Fukui University

• Saito Sakae

  Department Of Physics Nagoya University

• Sakae Saito

  Department Of Physics Nagoya University

• Hashimoto T

  Fukui Univ. Fukui Jpn

• Hashimoto Takaaki

  Department Of Applied Mathematics Faculty Of Engineering Science Osaka University

• Yamamoto H

  Department Of Applied Physics Fukui University

• UEHARA Masayuki

  Department of Physics, Saga University

• Horibe M

  Department Of Applied Physics Faculty Of Engineering Fukui University

• Horibe Minoru

  Department Of Education Fukui University

• Uehara Masayuki

  Department Of Physics Kyoto University

• Yamamoto Hiroshi

  Department Of Energy Engineering And Science Nagoya University

• Yamamura Masatoshi

  Department Of Physics Kyoto University

• Yamamoto H

  Ibaraki Univ. Mito

• Saito Sakae

  Department Of Physics Hokkaido University

• Yamamoto Hiroshi

  Departmemt Of Chemical Engineering University Of Tokyo

• YAMAMOTO Hiroshi

  Department of Applied Physics, Fukui University

• HORIBE Minoru

  Department of Physics, Osaka University

• HORIBE Minoru

  Department of Physics, Faculty of Education

• HORIBE Minoru

  Department of Natural Science, Fukui University

• HORIBE Minoru

  Department of Applied Physics, Faculty of Engineering, Fukui University

• SAITO Seiji

  Department of Physics, Waseda University

• MARUMORI Toshio

  Institute of Physics, University of Tsukuba

• Marumori T

  Department Of Physics Science University Of Tokyo

• Marumori Toshio

  Institute For Nuclear Study University Of Tokyo

• Hayashi Akihisa

  Department Of Physics Kyoto University

• IWASAKI Saburo

  Physics Department, Technische Universitat Munchen

• TOMODA Toshiaki

  Institute for Nuclear Study, University of Tokyo

• KURIYAMA Atsushi

  Institute for Nuclear Study, University of Tokyo

• MASKAWA Toshihide

  Institute for Nuclear Study, University of Tokyo

• WAKAMATSU Masashi

  Institute for Nuclear Study, University of Tokyo

• Tomoda Toshiaki

  Institute For Nuclear Study University Of Tokyo

• Iwasaki Saburo

  Physics Department Technische Universitat Munchen

• MASKAWA Toshihide

  Research Institute for Fundamental Physics Kyoto University

• 若松 正志

  大阪大学理学研究科

• Maskawa Toshihide

  Institute For Nuclear Study University Of Tokyo

• WAKAMATSU Masashi

  Department of Physics, Osaka University

• Wakamatsu Masashi

  Institute For Nuclear Study University Of Tokyo

• WAKAMATSU Masashi

  Institute of Physics, University of Tokyo

• IWASAKI Saburo

  Institute fro Nuclear Study, University of Tokyo

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著作論文

• How to Quantize Fields Canonically on Discrete Space-Time : Particles and Fields
• Conserved Quantities of Field Theory on Discrete Spacetime
• Chapter III Pion-Nucleon Scattering in the Soliton Model
• Large N_c Behavior of Soft Pion Theorems and the Skyrme Model
• A Large Amplitude Collective Motion in a Nontrivial Schematic Model
• A Microscopic Description of Nuclear Rotational Motion in Terms of Solid Harmonics Expansion of the Pair Operator. I : Classical Theory
• Concept of a Collective Subspace Associated with the Invariance Principle of the Schrodinger Equation:A Microscopic Theory of the Large Amplitude Collective Motion of Soft Nuclei
• A Microscopic Description of Nuclear Rotational Motion in Terms of Solid Harmonics Evpansion of the Pair Operator. II : Quantization Procedure
• Phase Transition to Abnormal Nuclear Matter at Finite Temperature and Finite Baryon Density

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