Coupled-Discretized-Continuum-Channels Method for Deuteron Breakup Reactions Based on Three-Body Model : Justification of the Method for Truncation and Discretization of the p-n Continuum

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概要

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• For the treatment of the deuteron breakup process, the p-n continuum states are truncated for linear and angular momenta as k≤k_<max> and l≤l_<max>, respectively, and a finite number of p-n breakup channels are introduced by discretizing the p-n continuum into momentum bins with a common width Δk. Validity and usefulness of this method are shown through crucial examinations on the d+^<58>Ni system at the deuteron incident energy of 80 MeV. The S-matrix elements converge smoothly and rapidly with respect to narrowing Δk in the cases both of the exact Hamiltonian and the adiabatic Hamiltonian. In the latter case, it is explicitly shown that the converged S-matrix elements agree with the exact ones. Sufficient convergence of the breakup S-matrix elements is seen at Δk=1/8fm^<-1> and that of the elastic ones at Δk=1/4 fm^<-1>. The S-matrix elements also converge quickly with respect to increasing k_<max> and l_<max>. Physically sufficient truncation is given by k_<max>∼1.0fm^<-1> and l_<max>=2.

• 理論物理学刊行会の論文
• 1982-05-25

著者

• KAMIMURA Masayasu

  Department of Physics, Kyushu University

• Yahiro M

  Univ. Ryukyus Okinawa Jpn

• Nakano Masahiro

  Division of Information Science, School of Health Science, University of Occupational and Environmen

• Iseri Y

  Chiba-keizai College

• Iseri Yasunori

  Department Of Physics Chiba-keizai College

• Yahiro Masanobu

  Department Of Physics Kyushu University

• Yahiro Masanobu

  Department Of Physics And Earth Sciences University Of The Ryukyus

• Yahiro Masanobu

  Gunma National College Of Technology

• Yahiro Masanobu

  Department Of Physics Kyushu Unversity

• Kamimura Masayasu

  Department Of Physics Kyushu University

• Nakano Masahiro

  Division Of Physics University Of Occupational And Environmental Health

• Nakano Masahiro

  Division Of Information Science School Of Health Science University Of Occupational And Environmenta

• NAKANO Masahiro

  Division of Physics, University of Occupational and Environmental Health

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