Bayesian analysis of properties of nuclear matter with the FOPI experimental data

Abstract

Based on the ultra-relativistic quantum molecular dynamics (UrQMD) transport model, combined with experimental data of directed flow, elliptic flow, and nuclear stopping power measured by FOPI in 197Au+197Au collisions at beam energies (Elab) of 0.25 and 0.4 GeV/nucleon, the incompressibility of the nuclear equation of state K0, the nucleon effective mass m*, and the in-medium correction factor (F, with respect to free-space values) on the nucleon-nucleon elastic cross sections are studied by Bayesian analysis. It is found that both m* and F can be tightly constrained with the uncertainty 15\%, however, K0 cannot be constrained tightly. We deduce m*/m0 = 0.78+0.09-0.10 and F = 0.75+0.08-0.07 with experimental data at Elab = 0.25 GeV/nucleon, and the obtained values increased to m*/m0 = 0.88+0.03-0.03 and F = 0.88+0.06-0.07 at Elab = 0.4 GeV/nucleon. The obtained results are further verified with rapidity-dependent flow data.