Density and temperature dependence of nucleon-nucleon elastic cross section
arXiv:nucl-th/0312098 · doi:10.1103/PhysRevC.69.017601
Abstract
The in-medium neutron-proton, proton-proton (neutron-neutron) elastic scattering cross sections ($Ï_{np}^{*}$, $Ï_{pp(nn)}^{*}$) are studied based on the effective Lagrangian of density dependent relativistic hadron theory in which the $δ$[$a_0(980)$] meson is included. Our study shows that at low densities the $Ï_{np}^*$ is about 3-4 times larger than $Ï_{pp(nn)}^*$ and at densities higher than the normal density the isospin effect is almost washed out. Because of coupling to $δ$ meson the $Ï_{nn}^*$ and $Ï_{pp}^*$ are different in isospin asymmetric medium following the splitting of the proton and neutron mass. The isospin effect on the density dependence of the in-medium nucleon elastic cross section is dominantly contributed by the isovector $δ$ and $Ï$ mesons. The temperature effect on the $Ï_{np}^*$ and $Ï_{pp(nn)}^*$ is studied. It is shown that the temperature effect is weaker compared with the density effect but it becomes obvious as density increases.
11 pages,4 figures, 1 table. accepted by PRC