The First-Order E2 Core Polarization Charge of ^<41>Ca in Woods-Saxon Shell Model
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概要
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The core polarization charge of the E2 transition from the first excited 3/2^- state to the 7/2^- ground state of ^<41>Ca is calculated in the first-order perturbation theory by using the wave functions of a Woods-Saxon potential and compared with the results of harmonic oscillator potential. The contributions from the particle-hole excitations to continuum particle states, which constitute the major part of the excitations, are calculated explicitly. The resultant first-order core polarization charge in the Woods-Saxon shell model with a δ-function type effective interaction 0.283e is smaller than the one of the harmonic oscillator shell model 0.311e. The effects of the continuum states are discussed in comparison with the harmonic oscillator shell model.
- 理論物理学刊行会の論文
- 1980-02-25
著者
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Mano Junji
Department Of Physics Osaka City University
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Suekane Shota
Department Of Physics Osaka City University
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Suekane Shota
Department Of Physics Faculty Of Science Osaka City University
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MANO Junji
Department of Physics, Osaka City University
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Suekane Shota
Department of Physics, Osaka City University
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