动量相关作用对两体耗散同位旋效应的重要性

Importance of Momentum Dependence Interaction on the Isospin Effects of Two-Body Dissipation

利用同位旋相关的量子分子动力学 ,研究了中能重离子碰撞中动量相关的状态方程对原子核阻止基于两体耗散的同位旋效应的影响 .计算结果表明原子核阻止对同位旋相关和同位旋无关的核子 -核子碰撞截面 (两体耗散 )的差值强烈地依赖于动量相关势 ,即在有动量相关势的情况下原子核阻止对同位旋相关和同位旋无关的核子 -核子碰撞截面的差值大于没有动量相关势的情况 .这就意味着动量相关作用明显地提高了原子核阻止对于核子 -核子碰撞截面的灵敏性 .因此 ,在考虑动量相关势的情况下 ,原子核阻止可以更准确地作为提取同位旋相关的核子

The role of momentum dependence equation of state on the nuclear stopping for the isospin dependence and the isospin independence of in-medium nucleon-nucleon cross section is studied by using the isospin dependence quantum molecular dynamics. The nuclear stopping depends strongly on the isospin dependence of in-medium nucleon-nucleon cross section and weakly on the isospin dependence of the mean field-symmetry potential from above the Fermi energy to about 150MeV/u for the small impact parameters. A detail study indicates that the difference between the nuclear stopping for the isospin dependence and the isospin independence of in-medium nucleon-nucleon cross section depends sensitively on the momentum dependence interaction, namely, the difference between the nuclear stopping for the isospin dependence and the isospin independence of in-medium nucleon-nucleon cross section in the present of momentum dependence interaction is larger than that without the momentum dependence interaction (MDI) for the mass symmetry and mass asymmetry reaction systems, neutron-rich and neutron-poor reaction systems. Namely, MDI increases the sensitivity of the nuclear stopping on the isospin dependence nucleon-nucleon cross section. Therefore, the knowledge on the isospin dependence of in-medium mucleon-nucleon cross section can be extracted more accurately from nucleon stopping as a probe if the momentum dependence interaction is taken into account.