Effects of Correlation in the Core on the Motion of Outer Two Nucleons
スポンサーリンク
概要
- 論文の詳細を見る
We study the effects of the two-particle-two-hole correlation in the core on the motion of the outer two particles and two holes. Using a method of scattering eigenmode diagonalization, we can derive the renormalization effect on the one-particle energy and the backward configuration mixing to the state of the outer nucleons. It is found that the effects are considerable and the level schemes of O^<18>, F^<18> and N^<14> are reproduced by using the reaction matrix as the residual interaction.
- 理論物理学刊行会の論文
- 1967-10-25
著者
-
Kuriyama Atsushi
Department Of Physics Kyoto University
-
Nagata Sinobu
Department Of Applied Physics Faculty Of Engineering Miyazaki University
-
Bando Hiroharu
Department Of Physics Kyoto University
-
KURIYAMA Atsushi
Department of Physics, Kyoto University
-
BANDO Hiroharu
Department of Physics, Kyoto University
関連論文
- Chapter IV Charge Form Factors of ^3He and ^4He
- On p-He^4 Effective Potential and Nuclear Forces
- Nuclear Binding Mechanism and Structure of Neutron-Rich Be and B Isotopes by Molecular-Orbital Model
- Chapter VII Hartree-Fock Calculations of Nuclear Bulk Properties with Density- and Starting-Energy-Dependent Effective Interaction
- Reaction Matrix Calculations for Neutron-Rich He-Isotopes
- Time-Dependent Hartree-Fock and Functional Approaches. I : A Schematic Model
- Positive Definite Mass Parameter for Large Amplitude Monopole Motion and Non-Adiabatic Effect
- A Remark on Time-Dependent Hartree-Fock and Functional Approaches
- Chapter 7. Coupling between Collective and Intrinsic Modes of Excitation : Part IV. A Next Subject
- Chapter 5. Microscopic Structure of Breaking and Persistency of "Phonon-plus-Odd-Quasi-Particle Picture" : Part III. Analysis of Low-Lying States in Spherical Odd-Mass Nuclei
- Chapter 4. Persistency of AC State-Like Structure in Collective Excitations : Odd-Mass Mo, Ru, I, Cs and La Isotopes : Part III. Analysis of Low-Lying States in Spherical Odd-Mass Nuclei
- Chapter 3. Structure of the Anomalous Coupling States with Spin I=(j-1) : Part III. Analysis of Low-Lying States in Spherical Odd-Mass Nuclei
- Chapter 2. Theory of Intrinsic Modes of Excitation in Odd-Mass Nuclei : Part II. General Formulation of Theory
- Chapter 1. Intrinsic and Collective Degrees of Freedom in Quasi-Spin Space : Part II. General Formulation of Theory
- Part I. Introduction
- Microscopic Structure of a New Type of Collective Excitation in Odd-Mass Mo, Ru, I, Cs and La Isotopes
- Theory of Collective Excitations in Spherical Odd-Mass Nuclei. IV : Formulation in the General Many-j-Shell Model
- Theory of Collective Excitations in Spherical Odd-Mass Nuclei. II : Structure of the Anomalous Coupling States with Spin I = (j-1)
- Theory of Collective Excitations in Spherical Odd-Mass Nuclei. I : Basic Ideas and Concept of Dressed Three-Quasi-Particle Modes
- Binding Energy of Nuclear Matter by the Hole Line Expansion Method
- Backward Angle Anomaly in Alpha+^O Scattering and Alpha-Cluster States in ^Ne
- Backward Angle Anomaly in Alpha-Nucleus Scattering and Parity-Dependent Optical Model
- On the Collective Mode of Internal Motion of the Nucleus to be coupled with the Irrotational Surface Motion
- Self-Consistent Collective-Coordinate Method for the Large-Amplitude Nuclear Collective Motion
- Influence of α-Clustering on the Odd-Parity Levels in A=18 Nuclei
- Deuteron Clustering in Nuclear Matter
- A Microscopic Theory of Collective and Independent-Particle Motions : Time-Dependent Hartree-Fock Method and Its Extension
- Four-Body Correlation in Nuclear Matter
- Utility of Dirac Quantization of Classical System Involving Both Collective and Independent-Particle Degrees of Freedom : A Schematic Model
- Collective Subspace and Canonical System with Constraints
- Binding Energy of Nuclear Matter by the Hole Line Expansion Method. I
- Number-Constrained Canonical Equation for Large Amplitude Pairing Motion and Time-Dependent Hartree-Fock Method
- Optical Model Potential in the Lowest Order Brueckner Theory and Complex Effective N-N Interaction
- A Note on Pairing Vibrational Motion
- Alpha-Cluster Structure and Weak Coupling Feature in Light sd-Shell Nuclei : General Discussion and ^F Problem
- Chapter IV Coupling Effects of Two-Particle and Alpha Two-Hole States in A=18 Nuclei
- Admixtures of Shell and Cluster States in ^F
- On Coupling between Shell and Cluster States in ^F
- Capter III Study of Non-Alpha-Nuclei Based on the Viewpoint of Cluster Correlations
- On the (γ-π^-p) Reaction with Complex Nuclei
- Chapter I Introduction
- Multiple Scattering Equation for Two Particle-One Hole System and Generalized Vertex in Core Polarization of Nuclei. III : Effective Interactions
- Multiple Scattering Equation for Two Particle-One Hole System and Generalized Vertex in Core Polarization of Nuclei. II : Polarization Charges
- Effective Interactions in Finite Nuclei Based on Reaction Matrix Theory. II : Properties of Reaction Matrix and Core-Phonon-Exchange Interaction
- Effective Interactions in Finite Nuclei Based on Reaction Matrix Theory. I : Reaction Matrix Consistent with Model Space
- Chapter VI Reaction Matrix Approach to the Cluster State
- Brueckner-Generator-Coordinate Method and Application to a-a Scattering
- Reaction Matrix Theory for Cluster States in Light Nuclei. II : Clustering Dependence of the Effective Interaction
- Reaction Matrix Theory for Cluster States in Light Nuclei. I : Be^8
- Chapter II Nuclear Reaction Matrix and Nuclear Forces
- Chapter VII Nuclear Forces in Nuclei and Alpha-Clusterization
- On a Calculational Method of Folding Model Potential with Density-Dependent Effective Interactions : Progress Letters
- Systematic Analyses of Proton Elastic Scattering between 65
- Foundation of Deformed Potential Model for Nuclear Rotation
- Tensor Force of the Pion-Theoretical Potential and the Doublet Splitting in n-He^4 Scattering
- Note on the Vibrational Motion in Light Nuclei
- Nuclear Deformation and Nuclear Force. II
- Effective Hamiltonian and Energy Gap in Finite Nuclei
- Application of Variational Principle with Natural Boundary Condition to Scattering in Generator Coordinate Method
- Effective Interaction with Three-Body Effects
- Effective Mass of a Λ-Particle in Nuclear Matter and OBE Λ-N Interactions
- On the Effective Range of the Residual Potential in the Shell Model
- Effects of Correlation in the Core on the Motion of Outer Two Nucleons
- Flavor Nuclei and One-Boson-Exchange Potentials
- Heavy Ion Collision with Friction Model : Nulcear Physics
- On the Quadruple Correlation in the Extra Binding Energy of the s-d Shell Nuclei
- On the Bahaviour of the Wave Function of the Ground State of Li^6
- Nuclear Force and Energy Gap in Finite Nuclei
- Nuclear Deformation and Nuclear Force. I
- N-^O Scattering Derived from a Realistic N-N Interaction : Complex Reaction Matrix Approach
- Binding Energies of He and H in Reaction Matrix Theory
- Chapter 6. Comparison between Results with the P+QQ Force and with More Complex Residual Force : Part III. Analysis of Low-Lying States in Spherical Odd-Mass Nuclei
- On the Renormalization Effect due to the Ground State Correlation on the Nuclear Vibrational Motion
- Boson Expansion for Many-Fermion System as a Canonical Theory with Constraints. I
- A Semi-Microscopic Derivation of Coupling between Rotational and Intrinsic Motions. II
- An Extension of Time-Dependent Hartree-Fock Theory Including Grassmann Variables. I : Basic Formulation in the Framework of Dirac's Canonical Theory with Constraints : Nuclear Physics
- A Note on Specification of Collective Path
- A Microscopic Theory of Collective and Independent-Particle Motions
- An Extension of Time-Dependent Hartree-Fock Theory Including Grassmann Variables. II : Canonical Invariance and Specification of Coordinate System : Nuclear Physics
- Binding Energies of Double-Λ Hypernuclei and ΛΛ G-Matrix : Nuclear Physics
- On Alpha-Clustering in Nuclear Matter
- A Classical Theory of Pairing Rotation and Intrinisic Degrees of Freedom : A Canonical Form with Constraints
- On the Contraction of Deuteron Cluster in Li^6
- A Canonical Coordinate System Suitable for Adiabatic Treatment of Collective Motion : An Illustrative Model
- A Possible Canonical Theory for Description of Pairing Correlation : Comparison with the BCS Plus RPA Approach
- A Quantal Theory of Pairing Rotation, Pairing Vibrations and Independent-Particle Motions
- Boson Expansion for Many-Fermion System as a Canonical Theory with Constraints. II
- A Semi-Microscopic Derivation of Coupling between Rotational and Intrinsic Motions. I
- Ground State of ^Li
- Hypernuclear Matter with Nijmegen Baryon-Baryon Interaction : Nuclear Physics
- Effective Interaction and Effective Charge for Valence Nucleons in Collective Vibration and Core Polarization
- An Approximate Solution of Equation of Collective Path and Random Phase Approximation