A Molecule-like Structure in Atomic Nuclei of ^<16>O^<*> and ^<10>Ne

スポンサーリンク

概要

• 論文の詳細を見る

• The molecular aspect is developed from the studies of the rotational bands in light 4n-nuclei. We show that two rotational bands with K=0^+ and 0^- such as in ^<16>O and ^<20>Ne can be unified as the twins with the same molecule-like structure of an alpha particle plus a residual core nucleus. The gap energy between two bands is thought from a molecular viewpoint to be the splitting energy of an inversion doublet. The characteristics of the central barrier through which one configuration penetrates into its reflected configuration can be deduced from the properties of the light 4n-nuclei. Experimental splitting energies can be fitted with the reasonable parameters for the central barrier. Some remarks on the properties of the molecule-like structure can further be made.

• 理論物理学刊行会の論文
• 1968-08-25

著者

• HORIUCHI Hisashi

  Department of Physics, Kyoto University

• Ikeda Kiyomi

  Department Of Physics Niigata University

• Horiuchi Hisashi

  Department Of Physics Kyoto University

• Horiuchi Hisashi

  Department Of Physics University Of Tokyo

• Ikeda Kiyomi

  Department Of Physics Kyoto University

• Ikeda Kiyomi

  Department Of Physics College Of Science And Engineering Nihon 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 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
• 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
• 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
• 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
• Chapter III Molecule-Like Structures in Nuclear System
• 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
• Dynamical Effects on the ^9Li-n Interaction Induced by Pauli Blocking of the J^π = 0^+ pairing Correlation : Nuclear Physics
• The Mechanism of the Anomalous Energy Shift between s-States in Mirror Nuclei with a Halo Structure
• A Study of the Binding Mechanism of ^Li by the ^9Li + n + n Model
• Theoretical Predictions of Low-Lying Three-Body Resonance States in ^6He : Nuclear Physics
• Highly Excited Odd-Parity Resonant States of ^6Li around E_x≃18〜27 MeV with the Complex-Scaled ^3He+t Resonating Group Method : Nuclear Physics
• Hypernuclei and Deep Hole States
• Hyperon-Nucleon and Hyperon-Hyperon Interactions in Nuclei
• Formation and Transition of Strangeness=-2 Nuclear Systems
• Possible Existence of Light Σ Hypernuclei
• A Review on Highly Excited States of Light Λ-Hypernuclei
• Binding Mechanism of a Neutron-Rich Nucleus ^6He and Its Excited States
• Formation of a Ξ-Hypernucleus and Transitions to Double-Λ States : Nuclear Physics
• Conversion Widths of Light Ξ Hypernuclear States to Double-Λ Hypernuclear States〔邦文〕
• Analysis of ^9Li+n Resonances in ^Li by Complex Scaling Method : Interaction between ^9Li and Neutron : Nuclear Physics
• Highly Excited States of ^6_ΛLi by the Microscopic Cluster Model : 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
• 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 Practical Method Using the Isospin Projection Operator in Nuclear Physics
• Theory of Hindered Nuclear Matrix Elements
• Theory of Isobaric States and Hindered Fermi Nuclear Matrix Elements
• A Molecule-like Structure in Atomic Nuclei of ^O^ and ^Ne
• On the Roles of Effective Interactions in Nuclear Collective Motion
• 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
• Microscopic Study on Di-Nucleus States of ^O+^Ca and ^Ca+^Ca. I
• Capter I Introduction to Comprehensive Nuclear Structure Study Based on Cluster Correlations and Molecular Viewpoint
• Capter V Microscopic Study of the Interaction between Complex Nuclei
• 2.4 Study of Resonance States of ^C by Using the Wave Function of Alpha-Cluster Condensed State
• Study on the Dripline Nuclear System ^Li in the Framework of the Three-Body Model(Microscopic Cluster Models of Light Nuclei and Related Topics)
• Chapter I Introduction
• Chapter I Formation of the Viewpoint, Alpha-Like Four-Body Correlations and Molecular Aspects in Nuclei
• Cluster-Model Study of the T=1 States in A=4 System : ^3He+p Scattering
• Structure of the Second 0^+ State of ^4He
• Nuclear Structure Studied from Weak and Related Processes
• 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
• Study of αChain States through Their Decay Widths
• 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)
• The Coupling of the Spin-Dipole Mode with the Dipole Oscillations : E1 Radiative Widths of Isobaric Analog States in Pb^ and Bi^
• 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

もっと見る 閉じる

スポンサーリンク