Antisymmetrized Version of Molecular Dynamics with Two-Nucleon Collisions and Its Application to Heavy Ion Reactions : Nuclear Physics

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概要

• 論文の詳細を見る

• Two-nucleon collision process is incorporated into the antisymmetrized version of the molecular dynamics by utilizing the technique and the concept developed in the time-dependent cluster model. This newly formulated method of microscopic simulation of the heavy ion reaction can describe quantum mechanical features such as shell effects, since it treats the time development of the system wave function. We also propose a new prescription by which we can avoid the spurious zero-point energies of center-of-mass motion of fragment wave packets. The fragment production cross sections of the ^<12>C+^<12>C reaction at 28.7 MeV/nucleon are analyzed by this new method. It is shown that the basic feature of the data including the large cross section of α-particle is reproduced well by the theory. Furthermore we show that the data are reproduced very well when we take into account the statistical cascade decays of the produced fragments, which verifies the great usefulness of the new microscopic simulation framework.

• 理論物理学刊行会の論文
• 1992-05-25

著者

• 堀内 昶

  Research Center For Nuclear Physics Osaka University:international Institute For Advanced Studies

• HORIUCHI Hisashi

  Department of Physics, Kyoto University

• Ono A

  Tohoku Univ. Sendai Jpn

• Ono Akira

  Department of Anesthesiology, National Tokyo Medical Center

• Maruyama Toshiki

  Department of Physics, Kyoto University

• OHNISHI Akira

  Department of Physics, Kyoto University

• Maruyama T

  Department Of Physics Kyoto University

• Maruyama T

  Advanced Science Research Center Japan Atomic Energy Research Institute

• Maruyama T

  Jappan Atomic Energy Res. Inst. Ibaraki

• Maruyama Toshiki

  Department Of Physics Kyoto University

• Horiuchi Hisashi

  Department Of Physics Kyoto University

• Maruyama T

  College Of Bioresource Sciences Nihon University:institute Of Quantum Energy Nihon University:advanc

• Ohnishi Akira

  Department Of Molecular Chemistry Graduate School Of Engineering Hokkaido University

• Ono Akira

  Department Of Anesthesiology Akiru Municipal General Hospital

• Ono Akira

  Department of 2nd Internal Medicine, Faculty of Medicine, Oaka University

• MARUYAMA Toshiki

  Advanced Science Research Center Japan Atomic Energy Research Institute

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