Effective Interactions in Finite Nuclei Based on Reaction Matrix Theory. I : Reaction Matrix Consistent with Model Space
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概要
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Reaction matrix is calculated in rigorous ways, special attentions being paid to the consistency with the chosen model space. In our treatment of the reaction matrix, there occurs no ambiguity concerning the double couting. Core-polarization corrections to the effective interactions are considered in second order. The energy spectra of ^<42>Sc are calculated from two types of free nucleon-nucleon potentials, H-J and OBEP-K, with a model space chosen as (fp)^2-configurations, at first, and then extended to ((fp)^2+(sdg)^2)-configurations. This extension of the model space is found to be important to push down the lowest (J^πT)=(1^+0) state and (0^+1) state; the former has the strongest correlation in bare G and the correlation of the latter is most enhanced through the core-polarization. For the lowest (1^+0) state, however, the binding is still weaker compared with the experimental result, even for the OBEP-K potential which is more favourable for the deuteron-like correlation in nuclei.
- 理論物理学刊行会の論文
- 1974-08-25
著者
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ANDO Kazuhiko
Department of Physics, Kyoto University
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Ando Kazuhiko
Advanced Road Design And Safety Division Road Dept National Institute For Land And Infrastructure Ma
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Nagata Sinobu
Department Of Applied Physics Faculty Of Engineering Miyazaki University
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Bando Hiroharu
Division Of Mathematical Physics Fukui University
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Ando Kazuhiko
Department Of Ophthalmology Kanto Central Hospital
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BANDO H
Division of Mathematical Physics, Fukui University
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Bando Hiroharu
Division Of Mathematical Physics Fukui Universiiy
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BANDO Hiroharu
Division of Mathematical Physics, Fukui Univeristy
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BANDO Hiroharu
Division of Mathemaical Physics, Fukui University
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