Dynamical freeze-out in three-fluid hydrodynamics

The freeze-out procedure accepted in a model of three-fluid dynamics is analyzed. This procedure is formulated in terms of drain terms in hydrodynamic equations. The dynamics of freeze-out is illustrated by one-dimensional simulations. It is demonstrated that the resulting freeze-out reveals a nontr...

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Veröffentlicht in:	Physical review. C, Nuclear physics Nuclear physics, 2007-11, Vol.76 (5), Article 054907
Hauptverfasser:	Russkikh, V. N., Ivanov, Yu. B.
Format:	Artikel
Sprache:	eng
Schlagworte:	COMPUTERIZED SIMULATION FIREBALL MODEL FLUID FLOW HEAVY ION REACTIONS HYDRODYNAMIC MODEL NUCLEAR PHYSICS AND RADIATION PHYSICS ONE-DIMENSIONAL CALCULATIONS PROTONS THREE-DIMENSIONAL CALCULATIONS
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container_title	Physical review. C, Nuclear physics
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creator	Russkikh, V. N. Ivanov, Yu. B.
description	The freeze-out procedure accepted in a model of three-fluid dynamics is analyzed. This procedure is formulated in terms of drain terms in hydrodynamic equations. The dynamics of freeze-out is illustrated by one-dimensional simulations. It is demonstrated that the resulting freeze-out reveals a nontrivial dynamics depending on initial conditions in the expanding 'fireball'. The freeze-out front is not just defined 'geometrically' on the condition of the freeze-out criterion met but rather is a subject of fluid evolution. It competes with the fluid flow and does not always reach the place where the freeze-out criterion is met. Dynamics of the freeze-out in three-dimensional simulations is analyzed. It is demonstrated that the late stage of central nuclear collisions at the top energies available at the CERN Super Proton Synchrotron is of the form of three (two baryon-rich and one baryon-free) fireballs separated from each other.
doi_str_mv	10.1103/PhysRevC.76.054907
format	Article
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subjects	COMPUTERIZED SIMULATION FIREBALL MODEL FLUID FLOW HEAVY ION REACTIONS HYDRODYNAMIC MODEL NUCLEAR PHYSICS AND RADIATION PHYSICS ONE-DIMENSIONAL CALCULATIONS PROTONS THREE-DIMENSIONAL CALCULATIONS
title	Dynamical freeze-out in three-fluid hydrodynamics
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