Zhenglian Xie, Pingzhi Ning, Steffen A. Bass
Published 2009-11-23Version 1
The excitation function of freeze-out time, average freeze-out temperature and freeze-out energy density of (multi-) strange baryons created in relativistic heavy-ion collisions is investigated in the framework of a microscopic transport model. We find that the Omega on average freezes out earlier than the nucleon, Xi and Lambda. The average freeze-out temperature and energy density as well as the spread between the different baryonicstates increase monotonously with increasing beam energy and should approach a universal value in the case of a hadronizing Quark-Gluon-Plasma.
Comments: eleven pages including 1 table and seven figures
Journal: J.Phys.G37:045002,2010
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Consistent hydrodynamic description of one- and two-particle observables in relativistic heavy-ion collisions at RHIC
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