A Theory for Coupling between Fundamental Excitation Modes in Nuclei
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概要
- 論文の詳細を見る
A theory to describe coupling between fundamental excitation modes in nuclei is presented. It is characterized by two important aspects. Firstly, a technique called dynamical nuclear field theory is developed, which is not only capable of constructing fundamental excitation modes but also of deriving and solving the effects of the coupling between these modes. Secondly, the derivation of effective nuclear interactions is improved so that they can be used for the microscopic description of the above coupling.
- 理論物理学刊行会の論文
- 1983-05-25
著者
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Tamura Taro
Department Of Physics University Of Texas At Austin
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Tamura Taro
Department Of Physics Tokyo University Of Education
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KISHIMOTO Teruo
Institute of Physics and Tandem Accelerator Center,University of Tsukuba
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KAMMURI Tetsuo
Department of Physics, Osaka University
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KISHIMOTO Teruo
Tandem Accelerator Center, University of Tsukuba
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Kishimoto Teruo
Institute Of Physics And Tandem Accelerator Center University Of Tsukuba
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Kammuri Tetsuo
Department Od Physics Osaka University
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KUBO Takayuki
Institute of Physics, University of Tsukuba
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KAMMURI Tetsuo
Departmemt of Physics, Osaka University
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KISHIMOTO Teruo
Institute of Physics, University of Tsukuba
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KISHIMOTO Teruo
Institute of Physics,University of Tsukuba
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TAMURA Taro
Department of Physics, University of Texas
関連論文
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- A Theory for Coupling between Fundamental Excitation Modes in Nuclei
- A Collective Description of the Surface Oscillation of Atomic Nuclei : Extension of Tomonaga's Method to Three Dimensional Nucleus
- Vibrations of Spherical Nuclei
- Aspects of Boson Expansion Theories
- Nature of the First Excited States of the Vibrational Even-Even Nuclei
- Single Particle versus Collective Excitation in the Direct Interactions
- Photo-Meson Production from Deuteron
- Reformulation of DWBA Form Factor for Heavy Ion Transfer Reactions
- Slow Neutrons in the Cosmic Radiation, I
- Nuclear Collective Rotation in the SU_3 Model. ? : Quantal Rotation for an Axially Symmetric Configuration : Nuclear Physics
- Nuclear Collective Rotation in the SU_3 Model. I : Semiclassical Rotation : Nuclear Physics
- Collective Vibrations of Spherical Nuclei in Dynamical Nuclear Field Theory : Nuclear Physics
- Spin Alignment of Products ^B in ^N Induced Reactions
- Pair Rotation in the Dynamical Nuclear Field Theory : Nuclear Physics
- Collective Pair Excitations in Dynamical Nuclear Field Theory. II
- On a Boson Expansion Method with Two-Body Correlations : Nuclear Physics
- Exact Relation between Dynamical Nuclear Field Theory and Boson Expansion Theory in a Tamm-Dancoff-Boson System : Nuclear Physics
- Collective Pair Excitations in Dynamical Nuclear Field Theory. I : Nuclear Physics
- Perturbation Expansion in Dynamical Nuclear Field Theory and Its Relation with Boson Expansion Theory : Nuclear Physics
- Coupling of Particles with the Pair Rotation in Odd-Mass Nuclei : Nulcear Physics
- Nuclear Collective Rotation in the SU_3 Model. II : Quantal Rotation for a Triaxial Configuration : Nuclear Physics
- A respiratory sensitization study by a new quantitative structure-activity relationships (QSAR)
- Pairing Correlations in Excited Nuclei with Specified Angular Momentum
- Compound Nucleus Processes in the Reactions between Complex Nuclei
- Continuum Spectra in Heavy-Ion Induced One-Nucleon Transfer Reactions : Nuclear Physics
- Nucleon Transfer to Resonant and Non-Resonant States in the Continuum Spectra of Heavy-Ion Direct Reactions
- High-Spin Rotational States in Deformed Nuclei
- Semiquantal Treatment of Sequential Two-Nucleon Transfer Reactions Induced by Heavy Ions : Nuclear Physics
- Rapidly Rotating Nuclei in the SU_3 Model : Nuclear Physics
- Angular Distributions of (^N, α) Reactions