Binding Energy of Nuclear Matter by the Hole Line Expansion Method
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概要
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The binding energy of nuclear matter is calculated by the hole line expansion method, where the one-body potential of particle states is given up and higher order terms are treated with the same number of hole lines as a whole. Using Hamada and Johnston (H-J), an one-boson-exchange type (OBEP) and a soft-core with OPEP-tail potentials, the two- and three-body contributions are calculated. The two-body contributions are about 7 MeV (H-J) to 15 MeV (OBEP) and found to be strongly dependent on the tensor-central ratio in the triplet-even state. The three-body contributions are estimated by solving off-energy-shell reference spectrum equations and Bethe-Faddeev type equations. They are repulsive for hard core potentials at the normal density and 1 to 4 MeV for H-J at the equiliblium density, γ_0=1.2 fm.
- 理論物理学刊行会の論文
著者
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AKAISHI Yoshinori
Department of Physics, Hokkaido University
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NAGATA Sinobu
Department of Physics, Kyoto University
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Akaishi Yoshinori
Department Of Physics Hokkaido University
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Nagata Sinobu
Department Of Applied Physics Faculty Of Engineering Miyazaki University
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