Isospin-dependent in-medium nucleon-Delta elastic cross section

Abstract

In heavy-ion collisions at intermediate energies, the production and propagation of particles are crucial to understanding the nuclear equation of state and inferring the properties of nuclear matter at high densities. Based on the self-consistent relativistic Boltzmann-Uehling-Uhlenbeck (RBUU) transport theory, by introducing the isovector meson exchange into the effective Lagrangian and adopting the density-dependent coupling constants, the detailed expressions for isospin-dependent in-medium N→ N elastic cross sections σN* have been calculated. The energy and density dependence of the isospin-related σN* as well as the total contributions of σ, ω and meson fields are analyzed. It is found that the total σN* has a sensitive center-of-mass energy dependence at lower energies while exhibiting a slight increase as the center-of-mass energy increases. The isospin effect between different isospin-separated channels weakens as the energy and/or density increases. The isospin effect on the density- and energy-dependent in-medium N elastic cross sections is dominantly caused by the delicate balance of the isovector meson exchange.

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