Work with Maskawa on Microscopic Theory of Nuclear Collective Motion(<Special Issue>Commemorating the Nobel Prize Awarded to M. Kobayashi and T. Maskawa)

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概要

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• Development of theoretical study originated from a pioneering work on large-amplitude nuclear collective motion proposed at the end of the 1970's by members of a theory group, Institute for Nuclear Study, University of Tokyo is reviewed by putting special emphasis on an important contribution of Toshihide Maskawa. Thanks to his broad and deep knowledge on mathematical physics, and owing to his friendly cooperation in the theory group, a basic idea of the work was further developed, and successfully formulated in a general and lucid form, which was presented in a paper entitled Self-Consistent Collective-Coordinate Method for the Large-Amplitude Nuclear Collective Motion. Since the theory was formulated in a widely applicable, plain and terse way, it has been developed by retaining a large overlap with theoretical forefront in various fields of science. Its recent developments for exploring an evolution of matter in connection with nonlinear dynamics, non-equilibrium statistical physics and bio-chemical sciences are also discussed.

• 理論物理学刊行会の論文
• 2009-07-25

著者

• SAKATA Fumihiko

  Institute for Nuclear Study, University of Tokyo

• Sakata Fumihiko

  Institute Of Applied Beam Science Graduate School Of Science And Technology Ibaraki University

• Sakata Fumihiko

  Institute For Nuclear Study The University Of Tokyo

• Sakata Fumihiko

  Institute of Theoretical Physics, Chinese Academy of Sciences:Institute of Applied Beam Science, Graduate School of Science and Technology, Ibaraki University

関連論文

• Breaking of Separability Condition for Dynamical Collective Subspace : Onset of Quantum Chaos in Large-Amplitude Collective Motion : Nuclear Phusics
• Chapter 7. Coupling between Collective and Intrinsic Modes of Excitation : Part IV. A Next Subject
• Chapter 1. Intrinsic and Collective Degrees of Freedom in Quasi-Spin Space : Part II. General Formulation of Theory
• Equations of Motion for the System of Interest under Time-Dependent Environment(Nuclear Physics)
• A Possible Microscopic Description of Nuclear Collective Rotation in Band-Crossing Region:Occurrence Mechanism of s-Band
• Work with Maskawa on Microscopic Theory of Nuclear Collective Motion(Commemorating the Nobel Prize Awarded to M. Kobayashi and T. Maskawa)
• A Numerical Study on the Structure Change of Collective Motions
• New Algorithm for Hartree-Fock Variational Equation : Nuclear Physics
• Quantum Nonlinear Resonance : Nuclear Physics
• Microscopic Description of Nuclear Collective Rotation by Means of the Self-Consistent Collective Coordinate Method : Occurrence Mechanism of Collective Rotation : Nuclear Physics
• Extraction of Dynamical Collective Subspace for Large-Amplitude Collective Motion : Application to Simple Solvable Model : Nuclear Physics
• Optimum Collective Submanifold in Resonant Cases by the Self-Consistent Collective-Coordinate Method for Large-Amplitude Collective Motion
• Collective, Dissipative and Stochastic Motions in the TDHF Theory : Nuclear Physics
• Concept of Dynamical Collective Submanifold for Large-Amplitude Collective Motion in the TDHF Theory : Nuclear Physics
• Intrinsic Excitation Modes Compatible with Large-Amplitude Collective Motion in the TDHF Theory : Nuclear Physics
• Applicability of the Concept of "Optimal" Collective Submanifold Determined by the Self-Consistent Collective-Coordinate Method : Long-Time Behavior of Trajectories on "Optimal" Collective Submanifold : Nuclear Physics
• Geometry of the Self-Consistent Collective-Coordinate Method for the Large-Amplitude Collective Motion : Stability Condition of Maximally-Decoupled Collective Submanifold
• Maximally-Decoupled Collective Submanifold in a Simple Solvable Model
• An Attempt toward Quantum Theory of "Maximally-Decoupled"Collective Motion
• Quantum Theory of Collective Motion : Quantized Self-Consistent Collective-Coordinate Method for the Large-Amplitude Nuclear Collective Motion
• Self-Consistent Collective-Coordinate Method for the Large-Amplitude Nuclear Collective Motion
• Chapter 2 Outline of the Mode-Mode Coupling Theory
• A New Method for Microscopic Description of the So-Called "Many-Phonon" States in Spherical Even-Even Nuclei. I
• Structure of the Anomalous 0^ Excited States in Spherical Even-Even Nuclei with N or Z≈ 40
• In What Sense Does the Phonon Picture Persist in Spherical Even-Even Nuclei?
• Chapter 5 Dynamical Interplay between Pairing and Quadrupole Correlations in Odd-Mass Nuclei
• Chapter 4 Dynamical Interplay between Pairing and Quadrupole Correlations : Anharmonicity in the So-Called Two-Phonon Triplet States in Medium-Heavy Nuclei
• Chapter 3 A New Microscopic Method for Describing the Elementary Modes of Excitation in the Intrinsic Subspace : Dressed n-Quasiparticle Modes and Multi-Phonon Excitation
• Dissipation Mechanism of the Large-Amplitude Collective Motion : Dynamical Evolution of a Collective Bundle of Trajectories in the TDHF Phase Space for a Simple Soluble Model : Nuclear Physics
• Quantum Theory of Dynamical Collective Subspace for Large-Amplitude Collective Motion : Nuclear Physics

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