Proton and kaon production in Au+Au collisions at s NN=3 GeV

Abstract

Within an extended isospin- and momentum-dependent Boltzmann-Uehling-Uhlenbeck transport model, we study the protons, K+ mesons and hyperons production in Au+Au collisions at s NN=3 GeV. For the collision in 0-10% centrality, we study the transverse momentum spectra and rapidity dependent mean transverse momentum for protons. For the collision in 10-40% centrality, we study the directed and elliptic flows for protons and K+ mesons. The results show that the momentum-dependent nuclear mean field with an incompressibility K0=230 MeV can fit fairly the STAR experimental data, while the momentum-independent nuclear mean field with both K0=230 MeV and K0=380 MeV can only partially describe the experimental results. In addition, we also study the directed and elliptic flows for the associated , observations reveal the same conclusions as for kaons. These findings indicate that the momentum dependence of nuclear mean field plays a significant role in understanding nuclear matter properties in heavy-ion collisions at s NN=3 GeV.