Nuclear Matrix Element for β-Decay and the Ratio of Coupling Constants
スポンサーリンク
概要
- 論文の詳細を見る
The nuclear matrix elements for the β-decay in the second and the third forbidden transitions are derived on Bohr's collective model. The results are used for determining the ratio of the scalar and the tensor coupling constants in the analysis of the β-decay of Rb^<87>, Cs^<137>, Tc^<99>, and Fe^<59>, in terms of a linear combination of the scalar and the tensor Fermi interactions.
- 理論物理学刊行会の論文
著者
関連論文
- Effect to Exchange Currents on Orbital g-Factors and E1 Sum Rule for Photoabsorption
- β-spectra of Fe^, Rb^, Tc^, Cs^and the Coupling Constants of Scalar and Tensor Interactions in β-decay
- Approximation Method Based on Identities for Calculating Nuclear Matrix Elements. III : Application to Effective Coupling Constants
- On Quantum-Mechanical Nuclear Dipole Vibrations
- Approximation Method Based on Identities for Calculating Nuclear Matrix Elements. II : Truncation and Simulation
- Spin-Orbit Coupling in Heavy Nuclei
- Upper Bound of the Pseudoscalar Coupling Constant in Beta-decay
- Nuclear Matrix Element for β-Decay and the Ratio of Coupling Constants
- Application of Path Integral Method to Heavy Ion Reactions. I : General Formalism
- Pion Theory of Three-Body Forces
- Approximation Method Based on Identities for Calculating Nuclear Matrix Elements. I : General Procedure
- On Quantum-Mechanical Nuclear Dipole Vibrations