Nuclear Deformation and Nuclear Force. II
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概要
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In the previous paper, we showed the method to connect the nuclear deformation with the nuclear force and the calculation was carried out as for the central part of the reaction matrix in the case of Mg^<24>. Here we perform the same computation procedure for the tensor and spin-orbit part. Putting the results of the present calculation and the previous one together, we obtain the following conclusions: 1) The nuclear deformation is obtained as δ_<eq>=0.35, which seems to be reasonable in comparison with experimental data. 2) About 150% of the value of the spin-orbit splitting comes from the spin-orbit part of the reaction matrix and it lowers the energy of the configuration of the ground state which has the stable nuclear deformation. 3) The tensor interaction among the particles in the open shell has only small contribution to the deformation. 4) The self-consistency of Nilsson's model is considerably good.
- 理論物理学刊行会の論文
- 1961-01-25
著者
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Nagata Sinobu
Department Of Applied Physics Faculty Of Engineering Miyazaki University
-
Ikeda Kiyomi
Department Of Physics College Of Science And Engineering Nihon University
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Takada Kenjiro
Department Of Physics Kuushu University
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Takada Kenjiro
Department Of Physics Kyoto University
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TAKADA Kenjiro
Department of Physics, Kyoto University
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