Pauli-Forbiddenn Region in the Phase-Space of Coupled-Channel System in the Framework of the Time-Dependent Variational Theory
スポンサーリンク
概要
- 論文の詳細を見る
The Pauli-forbidden region in the phase space is investigated in the coupled-channel system with inelastic target excitation in the framework of the time-dependent variational theory. The target excitation mode is described by the coherent state of the SU_3 shell model wave function. Properties of the doubly-indexed Gel'fand polynomial are fully used in clarifying the existence and the characters of the Pauli-forbidden region.
- 理論物理学刊行会の論文
- 1984-12-25
著者
-
YABANA Kazuhiro
Department of Physics, Kyoto University
-
HORIUCHI Hisashi
Department of Physics, Kyoto University
-
Yabana K
Univ. Tsukuba Tsukuba Jpn
-
Yabana Kazuhiro
Research Institute For Fundamental Physics Kyoto University
-
Yabana Kazuhiro
Department Of Physics Kyoto University
-
Horiuchi Hisashi
Department Of Physics Kyoto University
関連論文
- Semi-Classical Quantization for Multi-Dimensional Coupled-Channel Equation : General and Mathematical Physics
- Ejectile Polarization and Nuclear Orbitals
- Fragment Mass Distribution in Intermediate Energy Heavy-Ion Collisions and the Reaction Time Scale : Nuclear Physics
- Antisymmetrized Version of Molecular Dynamics with Two-Nucleon Collisions and Its Application to Heavy Ion Reactions : Nuclear Physics
- Near- and Far-Side Contributions to Ejectile Polarization : Nuclear Physics
- Quantum Molecular Dynamics Study of Heavy Ion Reaction Mechanisms (原子核集団ダイナミックスの新動向)
- Microscopic Theories for the Reactions of Halo Nuclei
- Microscopic Derivation of the Nucleus-Nucleus Potential by the Use of the Density-Dependent Effective Interaction
- Cranked Cluster Wave Function for Molecular States : Nuclear Physics
- WKB Treatment of Boson Hamiltonian of Inter-Nucleus Interaction
- Solving the RPA Eigenvalue Equation in Real-Space(Nuclear Physics)
- Solving the RPA Eigenvalue Equation in Real-Space
- Fusion Reaction of Halo Nuclei : Proton Halo versus Neutron Halo
- Absorbing Boundary Condition Approach for Breakup Reactions of Halo Nuclei
- Low Energy Reactions of Halo Nuclei in a Three-Body Model : Nuclear Physics
- Alpha Clustering of Light Nuclei in the Parity Projected Mean Field Method : Nuclear Physics
- Deformations of Be Isotopes Studied with Skyrme Hartree-Fock Method : Nuclear Physics
- A Semi-Classical Treatment of the Coupled Channel Equation with Non-Local Interaction. IV : Higher Order Corrections to the Equivalent Local Potentials : Progress Letters
- Microscopic Study of the α-^O Interaction on the Basis of the Realistic Effective Interaction
- Microscopic Study of the Nucleus-Nucleus Interaction on the Basis of the Realistic Effective Interaction. II : Physical Consideration on the Effective Interaction and Comparison with Experiments in the α-α System : Nuclear Physics
- Microscopic Study of the Nucleus-Nucleus Interaction on the Basis of the Realistic Effective Interaction. I : Formulation : Nuclear Physics
- WKB Method in Boson Representation : Progress Letters
- A Semi-Classical Treatment of the Coupled Channel Equation with Non-Local Interaction. II : Equivalent Local Potentials to Be Used in the Coupled Channel Treatment : Nuclear Physics
- A Semi-Classical Treatment of the Coupled Channel Equation with Non-Local Interaction. III : Perey Effect and Flux Conservation : Nuclear Physics
- New Treatment of Resonances with a Bound State Approximation Using a Pseudo-Potential(Nuclear Physics)
- Description of ^8Be as Deformed Gas-Like Two-Alpha-Particle States
- Explicit Treatment of the Tensor Force with the Method of Antisymmetrized Molecular Dynamics(Nuclear Physics)
- New Constraint of Clustering for AMD and Its Application to the Study of the 2α-^C Structure of ^Ne(Nuclear Physics)
- Many-Particle and Many-Hole States in Neutron-Rich Ne Isotopes Related to Broken N = 20 Shell Closure(Nuclear Physics)
- The Study of Deeply Bound Kaonic Nuclei with Antisymmetrized Molecular Dynamics
- The Study of Deeply Bound Kaonic Nuclei with Antisymmetrized Molecular Dynamics
- Breaking of the Neutron Magic Number N=20 in ^Mg and ^Ne and Its Possible Relation to the Cluster Structure
- Deformation and Clustering in Even-Z Nuclei Up to Mg Studied Using AMD with the Gogny Force
- Study of Even-Z Nuclei Up to Mg with the Gogny Force Using AMD
- Structure of Light Unstable Nuclei Studied with Antisymmetrized Molecular Dynamics
- Microscopic Analysis of the Nucleus-Nucleus Optical Potential Based on the Feshbach Projection Operator Formalism. I : Formulation and Analysis of α^-^O System : Nuclear Physics
- On the Corner-of-Mass Free Density Matrix : Nuclear Physics
- Adiabatic Viewpoint for the WKB Treatment of Coupled Channel System : Appearance of the Berry Phase and Another Extra Phase Accompanying the Adiabatic Motion : Nuclear Physics
- 3D Real-Space Calculation of the Continuum Response
- Effect of the Nucleus-Nucleus Potential on the High Energy Photon Production in the Intermediate Energy Heavy Ion Collision : Nuclear Physics
- Microscopic Analysis of Inelastic Coupling Potential Based on the Coupled Channel Resonating Group Method. I : Formulation and Study of ^6Li-α System : Nuclear Physics
- A Molecule-like Structure in Atomic Nuclei of ^O^ and ^Ne
- Pauli-Forbiddenn Region in the Phase-Space of Coupled-Channel System in the Framework of the Time-Dependent Variational Theory
- A Semi-Classical Treatment of the Coupled Channel Equation with Non-Local Interaction. I : Nuclear Physics
- Microscopic Derivation of the Spin-Orbit Potential of Mass-Three Nucleus : Nuclear Physics
- Quantum Molecular Dynamics Study of Deep-Inelastic Collision (原子核集団ダイナミックスの新動向)
- Study of the Clustering Structure of ^B by the Use of Fragmentation Reaction : Nuclear Physics
- Clustering in Neutron-Rich Nuclear Matter in Low-Density Region
- Clustering in Neutron-Rich Nuclear Matter in Low-Density Region
- Capter I Introduction to Comprehensive Nuclear Structure Study Based on Cluster Correlations and Molecular Viewpoint
- 2.4 Study of Resonance States of ^C by Using the Wave Function of Alpha-Cluster Condensed State
- Cluster-Model Study of the T=1 States in A=4 System : ^3He+p Scattering
- Structure of the Second 0^+ State of ^4He
- Generator Coordinate Theory of Normalization Kernels of Cluster Systems. III : Application of Double Gel'fand Polynomials to General Cluster Systems
- Multi-Cluster Allowed States and Spectroscopic Amplitude of Cluster Transfer
- Chapter III Kernels of GCM, RGM and OCM and Their Calculational Methods
- Capter II Comprehensive Study of Alpha-Nuclei
- Structure of Intrinsic States of K^π=0^+ Bands in ^Ne : Study of Transient Character
- The Systematic Structure-Change into the Molecule-like Structures in the Self-Conjugate 4n Nuclei
- Structure of Light Nuclei Studied with AMD and Extended AMD(Microscopic Cluster Models of Light Nuclei and Related Topics)
- Clustering in Yrast States of ^Ne Studied with Antisymmetrized Molecular Dynamics
- Study of ^O- ^O Potential by the Resonating Group Method. I : Nulcear Physics
- Microscopic Study of the Dependence of the Light Ion Potential on the Projectile Mass Number : Nuclear Physics
- One-Dimensional Model of Nucleus-Nucleus Collision with Zero-Range Force.II : Comparison of Exact Scattering Amplitudes with Approximate Ones by TDHF Method : Nuclear Physics
- Effect of Coulomb Force on the Volume Integral of Light-Ion Nuclear Potential
- Study of Local Inter-Nucleus Potential on the Basis of the Resonating Group Method. III : Parity-Dependence and Angular-Momentum-Dependence of the Inter-Nucleus Potential
- Generator Coordinate Theory of Normalization Kernels of Cluster Systems. II : Systems Described by Three Generator Coordinate Vectors Involving Complex Conjugate One(s)
- WKB Derivation of Equivalent Local Potentials from RGM Non-Local Potentials of the Systems of 0s-Shell-Nucleus+^O
- One-Dimensional Model of Nucleus-Nucleus Collision with Zero-Range Force : Exact Scattering Amplitude and Equivalent Local Potential : Nuclear Physics
- WKB Derivation of Equivalent Local Potentials from RGM Non-Local Potentials of the Systems of 0s-Shell-Nucleus+^4He
- Generator Coordinate Theory of Normalization Kernels of Cluster Systems. IV : Application of Double Gel'fand Polynomials to SU_4 Symmetry of Cluster Wave Functions
- Local Inter-Nucleus Potential and Pauli-Forbidden States
- Equivalent Local Potentials and Perey Factors for Various Kinds of Relative Wave Functions of RGM. II : Quantitative Investigation of the Foundation of the Orthogonality Condition Model : Nuclear Physics
- Study of Local Inter-Nucleus Potential on the Basis of the Resonating Group Method. IV : Comparison of Various Approaches to Calculate Inter-Nucleus Potential and Study of the Origins of Deep and Shallow Potentials
- Equivalent Local Potentials and Perey Factors for Various Kinds of Relative Wave Functions of RGM. I : Formulation
- Study of ^O - ^O Potential by the Resonating Group Method. II : Analyses of Constituent Components of the Exchange Potential between Heavy-Ion Nuclei : Nulcear Physics
- Study of He Isotopes with AMD+Hartree-Fock
- Generator Coordinate Theory of Normalization Kernels of Cluser Systems. I
- Generator Coordinate Theory of Allowed States of Many-Cluster Systems
- Study of Local Inter-Nucleus Potential on the Basis of the Resonating Group Method. II : Calculational Procedure and Study of the Systems of Os-Shell-Nucleus + ^O
- Breaking of the Magic Number N = 20 Studied with the New Version of AMD
- Breaking of the Magic Number N=20 Studied with the New Version of AMD
- Generator Coordinate Treatment of Composite Particle Reaction and Molecule-like Structures
- Equivalent Local Potentials for RGM Non-Local Potentials of the Systems of 0s-Shell-Nucleus+^Ca : WKB Derivation and Comparison with the Systems of 0s-Shell-Necleus+^O
- Study of Local Inter-Nucleus Potential on the Basis of the Resonating Group Method. I : General Discussion and Study of the α-α System
- Cluster-Structure Study of ^Ne by "(^O-α)+(^C-^8Be)" Coupled Channel Orthogonality Condition Model. I : A Formulation of CCOCM Involving Rearrangement Channels and Study of Low-Lying 0^+States
- A Study of the Perey Effect by the WKB Method
- Double Folding Potential for Inelastic Scattering Problem between Nuclei
- Study of the Abnormal Parity Ground State of ^Be with AMD+Hartree-Fock