Coupled-Channel RGM Calculations with a New Cluster Wave Function for a Five-Nucleon System
スポンサーリンク
概要
- 論文の詳細を見る
A new type of cluster internal wave function has been proposed. This wave function can produce improved result, especially for the cluster binding energy. As a second application, we have considered the d+^3He and p+^4He elastic scatterings and the ^3He(d, p)^4He reaction based on the coupled-channel RGM with this type of wave function. The agreement between the calculated results and the experimental data is quite satisfactory.
- 理論物理学刊行会の論文
- 2004-10-25
著者
-
TANG Y.
School of Physics, University of Minnesota
-
Kaneko Tsuneo
Graduate School Of Science And Technology Niigata University
-
TANG Y.C.
School of Physics, University of Minnesota, Minneapolis
-
Tang Y.
School Of Physics University Of Minnesota
関連論文
- Coupled-Channel RGM Calculations with a New Cluster Wave Function for a Five-Nucleon System
- Study of α + Nucleus Scattering with a Simplified Resonating-Group Method : Nuclear Physics
- Scattering and Reaction Cross Sections in the p+α System with the Multiconfiguration Resonating-Group Method : Nuclear Physics
- Specific Distortion Effects in the d+α System with a Repulsive Three-Nuclear Potential
- Reaction Cross Sections in Light Nuclear Systems with the Multiconfiguration Resonating-Group Method
- Resonating-Group Calculations with a New Type of Cluster Internal Wave Function
- Resonating-Group Calculations with New Cluster Wave Function for p+^He Elastic Scattering
- Generator Coordinate Theory of Normalization Kernels of Cluster Systems. IV : Application of Double Gel'fand Polynomials to SU_4 Symmetry of Cluster Wave Functions
- Multiconfiguration Resonating-Group Study of the 10-Nucleon System
- Coupled-Channel RGM Calculations with a New Cluster Wave Function for a Five-Nucleon System