A study of the elastic π N scattering at finite baryon density

Abstract

We investigate the elastic π N scattering for the I=3/2 channel dominated by the (1232) resonance at finite baryon density B for the symmetric nuclear matter, employing the effective Lagrangian approach at the tree-level Born approximation. The quark-meson coupling (QMC) model and linear-density approximation are employed to describe the medium modifications for the in-medium baryon properties, such as the nucleon and masses, and full decay width. We first reproduce the experimental data in vacuum by fitting the model parameters, then analyze various physical observables including total and differential cross sections, proton-spin asymmetry in medium. It turns out that the -resonance contribution becomes diminished with respect to B, due to the weaker π N-interaction strength in medium. Beyond the -resonance region s1.5 GeV, the cross sections are almost independent of the density. The present results will be useful to understand the role of the resonance in the neutron-star equation of state (EoS) as well as in relativistic heavy-ion collision experiments.

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