Pairing Energy for Deformed Nuclei

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概要

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• An attempt is made to estimate the pairing energy for strongly deformed nuclei by dividing the energy into two parts, one of which is the interaction energy between the nucleons forming the last pair, while the other part arises from the deformation of the nucleus. Assuming an attractive inter-nucleon force with a short range, the interaction energy in the last pair is first estimated on the Nilsson model, and is then estimated in the case where the deformation is extremely strong. The other part is estimated on the unified model. The calculation is carried out for the last neutron pairs of the five nuclei Gd^<158>, Dy^<164>, Yb^<174>, Hf^<178> and Hf^<180> in the rare earth region. The results obtained by using the Nilsson model as well as the unified model are in fairly good agreement with the experimental data.

• 理論物理学刊行会の論文
• 1959-11-25

著者

• NOMOTO Morikazu

  Department of Physics, Niigata University

• Nomoto Morikazu

  Department Of Physics Niigata University

• Nomoto Morikazu

  Department Of Physics Niigata Universiry

関連論文

• Specific Distortion Effects in the d+α System with a Repulsive Three-Nuclear Potential
• Microscopic Study of Nucleon-^4He Scattering and Effective Nuclear Potentials
• Deteron Distortion Effects in the (d,d) Scattering and (d,p) Reaction
• Effects of the Pauli Principle and Channel Coupling on the Nuclear Reactions. II : Six-Nucleon System
• Effect of the Pauli Principle and Channel Coupling on the Nuclear Reactions : Five-Nucleon System
• Study of Two-Channel Five-Nucleon Reaction with Nuclear Forces
• Matrix Elements of β-Decay for a Spheroidal Core Model
• Pairing Energy for Deformed Nuclei

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