SELFCONSISTENT TRANSPORT COEFFICIENTS FOR DAMPED MOTION

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概要

• 論文の詳細を見る

• We apply the linear response theory to compute the coefficients for inertia, friction and local stiffness for large scale nuclear collective motion under the presence of a microscopic damping. A formulation is given in which these coefficients are defined within a locally harmonic approximation. The numerical computations are performed on the basis of a two-center shell model. It is found that zero frequency limit becomes a fair approximation for temperatures around 2 MeV. Friction is found to have a marked temperature dependence

• 素粒子論グループ 素粒子研究編集部の論文
• 1989-08-20

著者

• Hofmann H.

  Technical University of Munich

• Hofmann H.

  Technische Universitat Munchen

• Yamaji S.

  The Institute Of Physical And Chemical Research

• Samhammer R.

  Technische Universitat Munchen

関連論文

• Dynamical Collective Properties of Nuclei at Finite Temperature (原子核集団ダイナミックスの新動向)
• Effects of Two Particle-Two Hole Excitations on the Mass Distributions in the ^O+^Ca Reaction
• Re-evaluation of Friction Coefficients for Deep Inelastic Heavy-Ion Collisions
• SELFCONSISTENT TRANSPORT COEFFICIENTS FOR DAMPED MOTION

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