Watari Wataro | Reseach Institute For Atomic Energy Osaka City University
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概要
関連著者
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Watari Wataro
Reseach Institute For Atomic Energy Osaka City University
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Yonezawa Minoru
Department Of Physics Hiroshima University
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WATARI Wataro
Research Institute for Atomic Energy, Osaka City University
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Watari Wataro
Fukui Institute Of Technology
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WATARI Wataro
Research Institute for Atomic Energy,Osaka City University
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Watari Wataro
Research Institute For Atomic Energy Osaka University
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Tamagaki Ryozo
Department Of Physcis Kyoto University
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Hiroshige Noboru
Research Institute For Atomic Energy Osaka City University
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YONEZAWA Minoru
Department of Physics, Hiroshima University
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HIROSHIGE Noboru
Faculty of Economics, Hannan University
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Hiroshige Noboru
Department Of Applied Physics Osaka City University
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HIROSHIGE Noboru
Research Institute for Atomic Energy, Osaka City Univercity
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Ueda Tamotsu
Department Of Applied Mathematics Faculty Of Engineering Science Osaka University
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Sawada Shoji
Department Of Physics Hiroshima University
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Furuichi Susumu
Department Of Neurosurgery Yao Tokushukai Hospital
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FURUICHI Susumu
Department of Physics, Rikkyo University
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Kamo Hideki
Reseach Institute For Atomic Energy Osaka City University
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SAWADA Shoji
Department of Physics, Nagoya University
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Suemitsu Hiroshi
Faculty Of Integrated Arts And Sciences Hiroshima University
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Suemitsu Hiroshi
Department Of Physics Hiroshima University
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FURUICHI Susumu
Deparment of Physics, Rikkyo University
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Ueda Tamotsu
Department Of Applied Mathematics Faculty Of Engineering Sciences Osaka University
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KIKUGAWA Masayoshi
Department of Physics, Hiroshima University
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Watari Wataro
Research Institute For Atomic Energy Osaka City University
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Kikugawa Masayoshi
Department Of Physics Hiroshima University
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Kikugawa Masayoshi
Department Of Physics Faculty Of Science Hiroshima University
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Kawasaki M
Univ. Tokyo Tokyo Jpn
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Furuichi Susumu
Department Of Physics Rikkyo University
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KAWASAKI Mamoru
Physics Department, Gifu University
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松田 正久
愛知教育大
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Matsuda Masanori
Faculty Of Integrated Arts And Sciences Hiroshima University
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KAMO Hideki
Research Institute for Atomic Energy Osaka City University
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MATSUDA Masanori
Faculty of IAS, Hiroshima University
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Wada Masanobu
Department Of Electronic Engineering Faculty Of Engineering Tohoku Univeristy
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TAMAGAKI Ryozo
Department of Physics, Kyoto University
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Takagi Shuji
Department Of Applied Mathematics Faculty Of Engineering Schience Osaka University
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Yonezawa Minoru
Research Laboratories Toyama Chemical Co. Ltd.
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Otsuki Shoichiro
Department Of Physics Kyoto University
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HIROSHIGE Noboru
Research Institute for Atomic Energy, Osaka City University
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SUEMITSU Hiroshi
Department of Physics, Hiroshima University
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Suemitsu Hiroshi
Department Of Physics Faculty Of General Education Hiroshima University
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Hoshizaki Norio
Research Institute For Fundamental Physics Kyoto University
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Otsuki Shoichiro
Physical Institute Nagoya University
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TAKETANI Mituo
Department of Physics Rikkyo University
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OTSUKI Shoichiro
Department of Physics Nagoya University
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OGAWA Shuzo
Department of Physics, Hiroshima University
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Tanaka Hajime
Department Of Applied Physics Faculty Of Engineering University Of Tokyo
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Takagi Shuji
Department Of Physics Kyoto University.
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Takagi Shuji
Department Of Applied Mathematics Faculty Of Engineering Science Osaka University
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Ogawa Shuzo
Department Of Physics Hiroshima University
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Yasuno Masaru
Department Of Physics Kyoto University
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TAKEDA Kenjiro
Research Institute for Atomic Energy, Osaka City University
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Kawaguchi Masaaki
Department Of Applied Mathematics Faculty Of Engineering Science
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Takeda Kenjiro
Research Institute For Atomic Energy Osaka City University : Department Of Physics Kyushu University
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KISHI Yosuke
Department of Physics, Kyoto University
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Otsuki Shoichiro
Institute for Theoretical Physics, Nagoya University
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Watari Wataro
Institute for Atomic Energy, Osaka City University
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Kamo Hideki
Research Institute For Atomic Energy Osaka City Univeristy
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Iwadare Junji
Research Institute For Fundamental Physics Kyoto University
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Tamagaki Ryozo
Department Of Physics Kyoto University : Department Of Physics Hokkaido University
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Kishi Yosuke
Department Of Physics Kyoto University
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Kishi Yosuke
Department Of Metallurgical Engineering Faculty Of Engineering Tokyo Institute Of Technology
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Hamada Tetsuo
School Of Physics Sydney University
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Takada Kenjiro
Research Institute For Atomic Energy Osaka City University
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TAKABAYASHI Kunio
Department of Physics, Hiroshima University
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HIROSHIGE Noboru
Resarch Institute for Atomic Energy, Osaka City University
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Yonezawa Minoru
Research School Of Physical Sciences The Australian National University : Hiroshima University
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OTSUKI Shoichiro
Physics Institute, Nagoya University
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Takabayashi K
Hiroshima Univ. Hiroshima Jpn
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Takabayashi Kunio
Department Of Physics Hiroshima University
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Harada Minoru
Department Of Mechanical Engineering Graduate School Of Engineering Yokohama National University
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Harada Minoru
Department Of Physics Hokkaido University
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Watari Wataro
Research Institute For Atomic Energy Osaka City Univeristy
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Otsuki Shoichiro
Institute For Theoretical Physics Nagoya University
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Otsuki Shoichiro
Physics Institute Nagoya University
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Tanaka Hajime
Department Of Applied Physics And Applied Mechanics Institute Of Industrial Science University Of To
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Kawaguchi Masaaki
Department Of Theoretical Physics Australian National University : Department Of Applied Mathematics
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WATARI Wataro
Research Institute of Atomic Energy, Osaka City University
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WATARI Wataro
Research Institute for Atomic Energy, Osaka City Univeristy
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TAKETANI Mituo
Department of Physics, Rikkyo University
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Otsuki S.
Physical Institute, Nagoya University
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HARADA Minoru
Department of Physics, Hokkaido University
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WATARI Wataro
Research Institute for Atomic Energy, Osaka University
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HIROSHIGE Noboru
Department of Applied Physics, Osaka City University
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UEDA Tamotsu
Department of Applied Mathematics, Faculty of Engineering Science, Osaka University
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UEDA Tamotsu
Department of Applied Mathematics Faculty of Engineering Science, Osaka University
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HAMADA Tetsuo
School of Physics, Sydney University
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SUEMITSU Hiroshi
Faculty of Integrated Arts and Sciences, Hiroshima University
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WADA Masanobu
Department of Physics, Hokkaido University
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YONEZAWA Minoru
Department of Physics,Hiroshima University
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YONEZAWA Minoru
Research School of Physical Sciences, The Australian National University : Hiroshima University
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Furuichi S.
Department of Physics Rikkyo University
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Takada Kenjiro
Research Institute for Atomic Energy, Osaka City University : Department of Physics, Kyushu University
著作論文
- One-Boson-Exchange Modes and Two- and Three-Pion Exchange in Nucleon-Nucleon Interaction. I
- Chapter 3 One-Boson-Exchange Model
- Inelastic Process and the One Boson Exchange Model. II
- Inelastic Process and the One-Boson-Exchange Model
- Nuclear Matter and Soft Core Potentials
- Nuclear Force and Nuclear Matter. II
- Remarks on Shape of Repulsive Core of Nuclear Forces
- Nucleon-Nucleon Potential of One-Boson-Exchange Type
- The Reaction p+p→π^++d and Di-Proton Resonances
- An Approximate Phase Shift Analysis of πN Scattering
- A Partial-Wave Analysis of P+P→π^++d Reaction from Threshold to T_L=578 MeV
- On the Contributions from Heavy Pseudoscalar Mesons to the Nucleon-Nucleon Interaction
- Effects of the Form Factors in the One-Boson-Exchange Model of Nucleon-Nucleon Scattering
- Experimental Estimate for the Left-Hand-Cut Contributions in Nucleon-Nucleon Scattering
- Low Energy Pin Photoproduction and One-Particle-Exchange Model
- Dispersion Theoretic Calculation of Two-Pion-Exchange Contribution in Nucleon-Nucleon Scattering. I : Formulations and General Results of Numerical Calculation
- Dispersion Theoretic Calculation of the Two-Pion-Exchange Contribution in Nucleon-Nucleon Scattering. II : Detailed Investigation by Comparison with the OBEC Amplitude
- Chapter 1 Potential Model Approach
- NΔ→NΔ Amplitude and a Possible Narrow Dibaryon Resonance with J^P=2^+
- Partial-Wave Amplitudes of Elastic πd Scattering : Particles and Fields
- Non-Strange Dibaryon with J^P=2^- and I=1
- Analysis of the Dibaryon Resonances with J^P=2^+ and 3^- by a Three-Channel (pp, NΔ, πd) K-Matrix Method
- Pion-Deuteron Elastic Scattering Amplitudes in T_π^L=117〜325 MeV Region(Progress Letters)
- Partial-Wave Amplitudes of pp-π^+d Process from Its Threshold to T^L_p=810MeV(Nuclear Physics)
- Partial Wave Analysis of pp→π^+d Reaction in the Energy Region T_L^P ≤ 810 MeV
- Phase Shift Analysis of π-d Elastic Scattering in the Momentum Region p_L^π=245 MeV/c~539 MeV/c
- On the Polarization of Pion-Nucleon Scattering at Large Angles
- NΔ(1232) State Contributions in p+p→π^++d Reaction
- One-Boson-Exchange Modes and Two- and Three-Pion Exchange in Nucleon-Nucleon Scattering. II
- Inelastic Process and the One-Boson-Exchange Model. III : Effects of the Form Factors in Proton-Proton Collision at 1~2 GeV
- Phase-Shift Analysis of Proton-Proton Scattering at P_L=12 GeV/c
- A Phase-Shift Analysis of Proton-Proton Scattering at P_L=6GeV/c
- Proton-Proton Scattering Amplitudes at P_L=6 GeV/c : A Semi Phenomenological Phase-Shift Analysis
- Effects of Mass Width of Bosons on Nucleon-Nucleon Scattering
- A Multi-Channel Approach to High Energy Reactions by the One-Boson-Exchange Model
- One Boson Exchange Model in Nucleon-Nucleon Scattering. II
- Two-Nucleon Potential with the "One-Pion-Exchange Tail"
- Phenomenological Analysis of p+p→π^++d in the Energy Range between 400 MeV and 800 MeV and Di-Proton Resonances
- Two-Nucleon Potential with Full Recoil. III : Detailed Discussions on Its Characteristic Features
- Inner Region and Nonstatic Effects of Nuclear Forces in the Triplet Odd State
- Proton-Proton Scattering at 52 MeV
- Pion Theory of Nuclear Forces and Low Energy P-Wave Phase Shifts
- Note on the Spin-Orbit Coupling and Tensor Forces
- Nucleon-Nucleon Potential in the Triplet-Even State
- Spirality Inversion and the Uniqueness of Phase Shifts in Nucleon-Nucleon Scattering
- Phenomenological Analysis of p+p→π^++d in the Energy Range 400〜800 MeV and Di-Proton Resonances. II
- Further Results on p-p Phase Shifts at 50 MeV
- Neutron-Proton Scattering and Pion Theory of Nuclear Forces