On the Effect of Non-Condensed Pions in Nuclear Medium
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概要
- 論文の詳細を見る
- 理論物理学刊行会の論文
- 1978-10-25
著者
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HIURA Jun
College of Liberal Arts, Iwate University
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Takatsuka Tatsuyuki
College Of Humanities And Social Sciences Iwate University
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Takatsuka Tatsuyuki
College Of Humaniteis And Social Sciences Iwate University
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Hiura J
College Of Humanities And Social Sciences Iwate University
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Hiura Jun
College Of Humanities And Social Sciences Iwate University
関連論文
- Chapter III Binding Energy of the Alpha Particle
- Chapter II The ATMS Method and the Three-Nucleon System with Realistic Potentials
- Variational Calculations of the Alpha Particle with Realistic Nucleon-Nucleon Potentials
- A New Variational Method and Binding Energy of the Triton with Realistic Potentials
- 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 V Toward Realistic Treatment of Neutral Pion-Condensed State
- Chapter III Characteristic Aspects of Pion-Condensed Phases
- Neutral Pion Condensation and Alternating Layer Spin Model Including Isobar Δ(1232) in Hot Symmetric Nuclear Matter
- Chapter II Typical Realization of Alpha-Particle Model Aspects in Beryllium Region
- 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
- Boson Three-Alpha Model of ^C and Effective Inter-Alpha Forces
- Chapter IV Alpha-Cluster Structure in Neon Region
- Postglitch Timing Behavior of Vela and Crab Pulsars in an Extended Starquake Model for Neutron Stars with Pion-Condensed Core : Nuclear Phusics
- An Octupole Deformation in ^20Ne
- An Octupole Deformation in ^Ne
- Charge Form Factors of ^4He and ^3He with Realistic Hard Core Potentials
- Phase Transition of Hot Neutron Matter to π^0-Condensed State : Astrophysics and Relativity
- Proton ^1S_0-Dominant Superfluidity with Two-Dimensional Character under Well-Developed π^0 Condensation
- Proton Mixing in π^0-Condensed Phase of Neutron Star Matter : Nuclear Physics
- 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
- Nuclear Matter at Finite Temperature : Dependence on Nuclear Incompressibility : Progress Letters
- On the Effect of Non-Condensed Pions in Nuclear Medium
- Characteristics and Evolution of Neutron Stars Just Born
- 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
- Hot Neutron Star with Pion Condensations and Characteristics of Neutrino Burst from SN1987A
- A Note on Partial-Wave Contribution in [ALS]-Phase of Nuclear Medium
- Pion-Condensed Neutron Star and Supernova 1987A
- Density and Temperature of Compressed Nuclear Matter
- Energy Gaps in Crust-Phase of Neutron Stars
- Nucleon Superfluidity under Coexistent Condensation of Neutral and Charged Pions in Neutron Matter
- Chapter II Superfluidity in Neutron Star Matter and Symmetric Nuclear Matter
- Particular Properties of Dense Supernova Matter : Nuclear Physics
- Properties of Hot Asymmetric Nuclear Matter : Nuclear Physics
- Proton Abundance in Dense Supernova Matter
- Effective Two-Nucleon Interaction in Asymmetric Nuclear Matter : Nuclear Physics
- 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
- Study on Characteristics of π^0-Condensate in Neutron Matter : Effective Nucleon Mass and Role of Non-Tensor Force
- Effective Interaction Approach to Hot Nuclear Matter
- Chapter IV Nucleon Superfluidity under Pion Condensation in Neutron Star Matter
- Characteristic Features and Releasable Energy of Hot Neutron Stars