Nuclear Matter Properties for Nonstatic One-Boson-Exchange Potential with Retardation
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概要
- 論文の詳細を見る
Nuclear matter properties are evaluated using our nonstatic OBEP. The binding energy of nuclear matter is calculated to the first-order reaction matrix G. As the nucleon-nucleon interaction, four kinds of potentials are considered that reproduce approximately equivalent phase shift, but differ from each other in the core potential (static Gaussian or velocity-dependent) and in the retarded effect (included or not). Our OBEP including retardation gives -12 MeV in binding energy at a saturation density k_F=1.5 fm^<-1>. The retarded effect of the OBEP is appreciable on the off-energy-shell G-matrices, and decreases simultaneously 2.0∼2.5 MeV in the binding energy and ∼ 0.05 fm^<-1> (in Fermi momentum) in the density. The relativistic correction to the Bethe-Goldstone equation tends to increase the binding and the density. The defect wave function and wound integral for each potential case are examined in detail.
- 理論物理学刊行会の論文
- 1975-05-25
著者
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Obinata Toshio
The Physical Science Laboratories College Of Science And Technology Nihon University
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OBINATA Toshio
Laboratory of Physics, College of Science and Technology Nihon University
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WADA Masanobu
The Physical Science Laboratory, College of Science and Technology Nihon University
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OBINAKA Toshio
Physical Science Laboratories, College of Science and Technology Nihon Universtiy
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Kasahara Teruhisa
Hokkaido University Computing Center Hokkaido University
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Kasahara Teruhisa
Hokkaido University Computing Center
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OBlNATA Toshio
The Physical Science Laboratories, Nihon University
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Oblnata Toshio
The Physical Science Laboratories Nihon University
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Wada Masanobu
The Physical Science Laboratories College Of Science And Technology Nihon University
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OBINATA Toshio
The physical Science Laboratories, College of Science and Technology, Nihon University
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Toshio OBlNATA
The Physical Science Laboratories, Nihon University
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Kawahara Teruhisa
Hokkaido University Computing Center,Hokkaido University
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Kasahara Tyuyo
Computing Center, Faculty of Science, Hokkaido University
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