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arxiv: nucl-th/0104023 · v1 · submitted 2001-04-06 · ⚛️ nucl-th · hep-ph· nucl-ex

Chemical freeze-out parameters at RHIC from microscopic model calculations

L.V. Bravina (1) , E.E. Zabrodin (1 , 2) , S.A. Bass (3 , 4) , A. Faessler (2) , C. Fuchs(2) , M.I. Gorenstein(5
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6) W. Greiner(5) S. Soff(7) H. Stoecker(5) H. Weber(5) (1-Institute for Nuclear Physics Moscow State University; 2-Institut fuer Theoretische Physik Universitaet Tuebingen; 3-Department of Physics Duke University; 4-RIKEN-BNL Research Center; 5-Institut fuer Theoretische Physik Universitaet Frankfurt; 6-Bogolyubov Institute for Theoretical Physics Kiev; 7-Nuclear Science Division LBNL Berkeley)
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classification ⚛️ nucl-th hep-phnucl-ex
keywords rhicenergieschemicalfreeze-outmattermicroscopicmodelparameters
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The relaxation of hot nuclear matter to an equilibrated state in the central zone of heavy-ion collisions at energies from AGS to RHIC is studied within the microscopic UrQMD model. It is found that the system reaches the (quasi)equilibrium stage for the period of 10-15 fm/$c$. Within this time the matter in the cell expands nearly isentropically with the entropy to baryon ratio $S/A = 150 - 170$. Thermodynamic characteristics of the system at AGS and at SPS energies at the endpoints of this stage are very close to the parameters of chemical and thermal freeze-out extracted from the thermal fit to experimental data. Predictions are made for the full RHIC energy $\sqrt{s} = 200$ AGeV. The formation of a resonance-rich state at RHIC energies is discussed.

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