Space-time regions of high baryon density and baryon stopping in heavy-ion collisions

Abstract

Four-volumes (V4= spatial-3-volume×lifetime) are calculated within the model of three-fluid dynamics (3FD) and compared with those of the the JET AA Microscopic Transport Model (JAM). The calculations are performed for central Au+Au collisions at energies sNN= 3 -- 19.6 GeV. These V4 indicate optimal collision-energy ranges for realizing macroscopic high baryon-density matter. It is found that the 3FD four-volumes noticeably exceed those in the JAM, which indicates a stronger baryon stopping in the 3FD model as compared to that JAM. It is argued that this difference in the baryon stopping correlates with stiffness of the EoS implemented in these models. Contrary to JAM, the four-volume, where a baryon density (nB) exceeds three times the normal nuclear density (n0), does not exhibit a maximum as a function of sNN. It decreases monotonically with increasing sNN, remaining at a fairly macroscopic level (i.e. V4≥ 5.54 fm4/c). For higher baryon densities, V4 exhibits maxima in its dependence on sNN. The optimal energy range for densities nB/n0> 4 is located at sNN= 3.2 -- 8 GeV. Even for nB/n0> 6, the four-volume remains quite macroscopic (V4≥ 44 fm4/c) at sNN= 4.5 -- 9 GeV contrary to the JAM.