Nuclear Forces and Effective Interactions in Nuclei
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概要
- 論文の詳細を見る
Local effective interactions in nuclei are calculated by using the reference spectrum method for four types of nuclear forces : the Hamada-Johnston potential, one of the Tamagaki-Wada-Watari potentials in the ^<3>E state, the Brueckner-Gammel-Thaler potential and the Gaussian type soft core potential proposed by Tamagaki. Matrix elements necessary for the shell model calculations in 1p-shell nuclei are also calculated and compared with the results of the analyses given by Cohen and Kurath (CK) and the study group of Kirin University (KU). Because of "the off-energy-shell effect", strengths of hard core spikes of our effective interactions for the nuclear forces with hard core are considerably larger than that of Brueckner, Gammel and Weitzner. There appear many discrepancies between our matrix elements and those of CK and KU.
- 理論物理学刊行会の論文
- 1967-05-25
著者
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Akaishi Yoshinori
Department Of Physics Hokkaido University
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Takada Kenjiro
Research Institute For Atomic Energy Osaka City University : Department Of Physics Kyushu University
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Takada Kenjiro
Research Institute For Atomic Energy Osaka City University
関連論文
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- Lightest Double-Λ Hypernucleus
- Nucleon-Nucleon Correlations and Inelastic Electron Scattering on ^4He
- Nucleon-Nucleon Short-Range Correlation and High-Momentum Components in Nuclei
- Meson Exchange Current and Three-Body Force Contributions to the ^4He Charge Form Factor
- Effect of Meson Exchange Currents on Charge Form Factors of the Three-Nucleon System
- Chapter IV Charge Form Factors of ^3He and ^4He
- The D_2 Parameter of the α Particle and Nucleon-Nucleon Force
- Realistic Momentum Distributions of the α Particle : Nuclear Physics
- Realistic Density Funcion of Alpha Particle
- Σ-Hypernuclear States in ^Pb : Nuclear Physics
- Hypernucleus Productions and Nuclear Short Range Correlations : Nuclear Physics
- A Study of s-Shell Hypernuclei Based on the Realistic NN and ΛN Interactions : Nuclear Physics
- Effects of NN and ΛN Tensor Forces on Λ-Separation Energy of _Λ^5He
- Nuclear Force and Nuclear Matter. II
- Chapter VII Negative-Parity States of the Alpha Particle
- Chapter III Binding Energy of the Alpha Particle
- Chapter II The ATMS Method and the Three-Nucleon System with Realistic Potentials
- Variational Calculations of the Alpha Particle with Realistic Nucleon-Nucleon Potentials
- A New Variational Method and Binding Energy of the Triton with Realistic Potentials
- Atom-Nucleus Hybrid State of ^9_ΣBe
- FORMATION AND STRUCTURE OF S=-2 HYPERNUCLEI
- THE NUCLEUS-Σ POTENTIAL
- Binding Energy of Nuclear Matter by the Hole Line Expansion Method
- Binding Energy of Nuclear Matter by the Hole Line Expansion Method. I
- On the Accuracy of Wave Functions and Charge Form Factors Obtained from ATMS Calculations
- Chapter II Nuclear Reaction Matrix and Nuclear Forces
- Chapter VII Nuclear Forces in Nuclei and Alpha-Clusterization
- On the "Anharmonic Effects" on the Collective Oscillation in Spherical Even Nuclei. II
- Note on the Vibrational Motion in Light Nuclei
- Nuclear Force and Nuclear Matter. I
- Nuclear Matter and Nuclear Forces
- Nuclear Forces and Effective Interactions in Nuclei
- Effective Interaction with Three-Body Effects
- Phenomenological Study of Three-Body Force Based on the Energy Levels of the Alpha-Particle
- Chapter V Effects of Three-Body Force in the Triton and the Alpha Particle
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- Particle-Necleus Scattering Theory with Realistic Two-Body Interactions
- Chapter VI Effects of Three-Body Force in Nuclear Matter
- Alpha-Particle Model of ^C by ATMS
- Binding Energies of Multi-Deltas Systems
- Charge Form Factors of ^4He and ^3He with Realistic Hard Core Potentials
- Binding Energies of He and H in Reaction Matrix Theory
- On Alpha-Clustering in Nuclear Matter