Resonating-Group Calculations with a New Type of Cluster Internal Wave Function
スポンサーリンク
概要
- 論文の詳細を見る
In the resonating group method, the many-nucleon wave function is taken to be totally antisymmetric and describes the motion of nucleons grouped into clusters. A new type of cluster internal wave function that can produce improved results, especially for the cluster binding energy, is proposed. We hope to utilize this type of cluster wave function in various resonating-group scattering and reaction calculations. A preliminary study in the case of p+^4 He scattering yield favorable conclusions.
- 理論物理学刊行会の論文
- 2001-02-25
著者
-
Tang Y
Univ. Minnesota Minnesota Usa
-
KANEKO Tsuneo
Graduate School of Science and Technology, Niigata University
-
Kaneko T
Niigata Univ. Niigata Jpn
-
Kaneko Tsuneo
Graduate School Of Science And Technology Niigata University
-
Tang Y.c.
School Of Physics University Of Minneapolis
-
Tang Y.
School Of Physics University Of Minnesota
-
Tang Y.c.
School Of Physics University Of Minnesota
-
KANEKO Takumi
Advanced Research Institute for Science and Engineering Waseda University
-
TANG Y.C.
School of Physics, University of Minnesota
-
KANEKO Tsuneo
Department of Physics, Niigata Univeristy
-
Takao KANEKO
Department of Physics, Meijo University
関連論文
- Automatic Computation of Cross Sections in HEP : Status of GRACE System
- On Analytic Solution of resonant Mixing for Solar Neutrino Oscillations
- Coupled-Channel RGM Calculations with a New Cluster Wave Function for a Five-Nucleon System
- Multiconfiguration Resonating-Group Study of Nuclear Reaction Mechanisms
- 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
- Microscopic Study of Nucleon-^4He Scattering and Effective Nuclear Potentials
- Resonating-Group Calculations with a New Type of Cluster Internal Wave Function
- Microscopic Study of Proton-^4He Scattering with Complex Effective N-N Interaction
- Capter III Study of Non-Alpha-Nuclei Based on the Viewpoint of Cluster Correlations
- Microscopic Study of d-^4He Scattering by RGM with Distortion Effect
- Study of Distortion Effects in the Elastic d-^4He Scattering by Orthogonality Condition Model
- 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
- Effect Due to the Pauli Principle and Channel Coupling : Inner Repulsive Effect and Resonance-Like Contribution
- Analysis of Proton-Nucleus Scattering Data with a Simplified Resonating-Group Method : Nuclear Physics
- Resonating-Group Calculations with New Cluster Wave Function for p+^He Elastic Scattering
- Hadron Mass Corrections and Patron Transverse Momentum in Hadronic μ-Pair Production
- Analytic Solution for Resonant Mixing of Solar Neutrinos
- A not on Baryon-Lepton Symmetry and Quark Mass Spectrum
- Possible "Level Crossing" between Electron and Muon Effective Masses at Very High Temperature : Progress Letters
- Possible Exotic Charge or Baryon Number for Heavy Quarks
- Refinement of the Energy Expression for Infinite Fermion Systems with Central Forces : Nuclear Physics
- 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
- A Possible New Interaction Based on the Nagoya Model
- The Weak Angle θ_c and Mixing between p and p' Quarks
- On the Structure of Space, Time and Field
- Coupled-Channel RGM Calculations with a New Cluster Wave Function for a Five-Nucleon System