Potential Models of Nuclear Forces at Small Distances
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概要
- 論文の詳細を見る
Recently the small distance behavior of nuclear forces has been brought to light in connection with the interaction of elementary particles and the structure of atomic nuclei. Several potential models are presented, where potentials have the tail of the one-pion-exchange potential (OPEP) and different forms at small distances. Potential parameters representing the medium-range interaction are chosen by taking account of the results obtained by the one-boson-exchange model and the dispersion-theoretic approach. Possible ambiguities at small distances, which cannot be resolved from the present experimental information, are discussed. Also, phenomenological potentials, which can be substituted for such realistic potentials and used conveniently in calculations of finite nuclei, are given in the form of the superposition of three-range Gaussian terms.
- 理論物理学刊行会の論文
- 1968-01-25
著者
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Tamagaki Ryozo
Department Of Physcis Kyoto University
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Tamagaki Ryozo
Department Of Physics Hokkaido University : Fundamental Physics Kyoto University
関連論文
- Nuclear Interaction of Core Region
- Scattering Observables of NN Interaction in the SU_6 Quark Model
- Reaction Matrix Calculations for Neutron-Rich He-Isotopes
- Nuclear Matter Calculations with Soft-Core Potentials in Momentum Space. I
- Nuclear Matter and Soft Core Potentials
- Alpha-Clustering in Nuclear Matter at Low Density
- An Explanation of N-N "Repulsive Core" in Terms of Forbidden States Based on the Quark Model
- Chapter X Outlook
- Chapter VIII Implications of Various Hadron Phases to Neutron Star Phenomena
- Chapter VII Neutral Pion Condensation in Hot and Dense Nuclear Matter
- Chapter VI A Chiral Symmetry Approach to Meson Condensations
- Chapter V Toward Realistic Treatment of Neutral Pion-Condensed State
- Chapter III Characteristic Aspects of Pion-Condensed Phases
- A Chiral-Bag Approach to Static Interaction between Two Baryons : A Numerical Study with Use of the Finite Element Method : Nuclear Physics
- Static Interaction between Two Spherical Chiral Bags
- Interaction between Two Quark Layers in Chiral Bag Model : Nuclear Physics
- Neutral Pion Condensation and Alternating Layer Spin Model Including Isobar Δ(1232) in Hot Symmetric Nuclear Matter
- Remarks on Shape of Repulsive Core of Nuclear Forces
- On the Applicability of the Pion-theoretical Nuclear Potential
- Two-Nucleon Problem with Pion Theoretical Potential, III : p-p Scattering at 18.2 Mev
- Two-Nucleon Problem with Pion Theorelical Potential, II : Singlet Even State
- Two-Nucleon Problem with Pion Theoretical Potential, I : Determination of Coupling Constant and Deuteron Problem
- Determination of the Pion Coupling Constant in Nuclear Forces
- Part II Verification of Pion Theory of Nuclear Forces
- Part I Development of Pion Theory of Nuclear Forces
- Chapter 1 Potential Model Approach
- Three-Alpha Structure of ^C in the Boson Model
- On the Collective Mode of Internal Motion of the Nucleus to be coupled with the Irrotational Surface Motion
- Chapter I Introduction
- Microscopic Study of ^O-^O Interaction by the Resonating Group Method
- A Possible Origin of Repulsive Core in Nuclear Forces
- Energy Gap in Nuclear Matter
- Cluster-Model Study of the T=1 States in A=4 System : ^3He+p Scattering
- Structure of the Second 0^+ State of ^4He
- On the Possible Origin of Repulsive Core and Spin-Orbit Forces in the Nucleon-Nucleon Interaction : Triplet Odd State
- Single-Particle Potential of Isobar Δ(1232) in Nuclear Matter Based on Extended Effective Interaction
- Pion Condensation and Alternating Layer Spin Model in Symmetric Nuclear Matter : Use of Extended Effective Nuclear Forces : Nuclear Physics
- α-α Interaction at High Energies
- A Chiral Bag Study of Quark Matter Confined in a Slab with Surrounding Pion Field : Particles and Fields
- One-Gluon-Exchange Effects and Stability of the Quark Alternating Layer Spin-Flavor Structure in High-Density Nuclear Matter : Nuclear Physics
- Quark Spin-Flavor Layered Structure of High Density Matter with Condensed π^0 Field in Chiral Bag Model : Nuclear Physics
- Quark ALS Structure with Condensed π^0 Field in Chiral Bag Model
- Chapter IX A Way to Quark Matter : Possible Intermediate Stages
- Chapter I Overview
- One Gluon Exchange Effect on the Saturation Property of Strange Quark Systems in the Bag Model : Nuclear Physics
- Postglitch Timing Behavior of Vela and Crab Pulsars in an Extended Starquake Model for Neutron Stars with Pion-Condensed Core : Nuclear Phusics
- Tensor Force of the Pion-Theoretical Potential and the Doublet Splitting in n-He^4 Scattering
- Effects of Tensor Force in Localized Neutron System
- Neutral Pion Condensation and ALS Model Including Isobar Δ(1236)
- Interaction between Alpha Particles
- Reaction Matrix Calculations in Neutron Matter with Alternating-Layer-Spin Structure under π^0 Condensation. II : Numerical Results
- Reaction Matrix Calculations in Neutron Matter with Alternating-Layer-Spin Structure under π^0 Condensation.I : Formulation
- Possible Coexistence of Neutral and Charged Pion Condensations in Nuclear Medium
- Repulsive Core of Nuclear Forces and Nuclear Matter
- Modification of Hamada-Johnston Potential
- Two-Nucleon Potential with the "One-Pion-Exchange Tail"
- Meson Theoretical Potentials in Triplet Odd State
- Energy Properties of Strange Quark Matter Studied in Constituent Quark Model : Nuclear Physics
- A Study on Three-Alpha Structure of ^C in the Faddeev Formalism
- Proton ^1S_0-Dominant Superfluidity with Two-Dimensional Character under Well-Developed π^0 Condensation
- π^0-Condensation Resulting from Alternating-Laser-Spin Structure in Dense Neutron Matter
- Neutron ^3P_2-Dominant Superfluidity with Two-Dimensional Character under Well-Developed π^0 Condensation
- Attenuation of ^3P_2-Superfluidity in Neutron Star Matter Due to Charged-Pion Condensation
- Corequake Model of Pulsar Glitches for Neutron Stars with Pion-Condensed Core
- Study on Neutron ^3P_2-Superfluidity with Two-Dimensional Character under π^0 Condensation in Neutron Star Matter
- Two-Nucleon Potential with Full Recoil. III : Detailed Discussions on Its Characteristic Features
- Inner Region and Nonstatic Effects of Nuclear Forces in the Triplet Odd State
- Potential Models of Nuclear Forces at Small Distances
- On the Meson-Theoretical Potentials
- Proton-Proton Scattering at 52 MeV
- Pion Theory of Nuclear Forces and Low Energy P-Wave Phase Shifts
- A Note on Crystallization of Dense Neutron Matter
- Neutron Cooper Pair of ^3P_2-Dominant Pairing with Two-Dimensional Character under the ALS Structure
- Closing Address
- Nucleon-Nucleon Potential in the Triplet-Even State
- A Cluster-Theoretical Approach to Saturation Property of Strange Quark Systems in Constituent Quark Model : Nuclear Physics
- Nucleon Superfluidity under Coexistent Condensation of Neutral and Charged Pions in Neutron Matter
- Optical Potential for High Energy α-α Scattering
- Tensor-Force Model for Quasi Two-Dimensional Pairing with a Possible Application to High-T_c Superconductivity : Condensed Matter and Statistical Physics
- Chapter II Superfluidity in Neutron Star Matter and Symmetric Nuclear Matter
- Two-Nucleon Spin-Orbit Forces and the Doublet Splitting in Low Energy n-α Scattering
- Neutral-Meson Condensation in Nuclear Medium from the Viewpoint of One-Boson-Exchange Model
- Solidification and Pion Condensation in Nuclear Medium : Alternating-Layer-Spin Structure with One-Dimensional Localization Accompanying π^0 Condensate
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- Chapter IV Nucleon Superfluidity under Pion Condensation in Neutron Star Matter
- Repulsive Core of Effective α-α Potential