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Thermal and chemical equilibration in relativistic heavy ion collisions

Journal Article · · Physical Review, C
 [1]
  1. Laboratoire de Physique Theorique et Hautes Energies, Universite de Paris XI, Batiment 211, F-91405 Orsay (France)
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We investigate the thermalization and the chemical equilibration of a parton plasma created from Au+Au collision at LHC and RHIC energies starting from the early moment when the particle momentum distributions in the central region become for the first time isotropic due to longitudinal cooling. Using the relaxation time approximation for the collision terms in the Boltzmann equations for gluons and for quarks and the real collision terms constructed from the simplest QCD interactions, we show that the collision times have the right behavior for equilibration. The magnitude of the quark (antiquark) collision time remains bigger than the gluon collision time throughout the lifetime of the plasma so that gluons are equilibrating faster than quarks both chemically and kinetically. That is we have a two-stage equilibration scenario as has been pointed out already by Shuryak sometimes ago. Full kinetic equilibration is however slow and chemical equilibration cannot be completed before the onset of the deconfinement phase transition assumed to be at {ital T}{sub {ital c}}=200 MeV. By comparing the collision entropy density rates of the different processes, we show explicitly that inelastic processes, and {ital not} elastic processes as is commonly assumed, are dominant in the equilibration of the plasma and that gluon branching leads the other processes in entropy generation. We also show that, within perturbative QCD, processes with higher power in {alpha}{sub {ital s}} need not be less important for the purpose of equilibration than those with lower power. The state of equilibration of the system has also a role to play. We compare our results with those of the parton cascade model. {copyright} {ital 1996 The American Physical Society.}
OSTI ID:
389444
Journal Information:
Physical Review, C, Journal Name: Physical Review, C Journal Issue: 5 Vol. 54; ISSN PRVCAN; ISSN 0556-2813
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
BOLTZMANN EQUATION
ENTROPY
EQUILIBRIUM PLASMA
GLUONS
GOLD 197 REACTIONS
GOLD 197 TARGET
HEAVY ION REACTIONS
LIFETIME
PARTONS
PERTURBATION THEORY
PHASE TRANSFORMATIONS
QUANTUM CHROMODYNAMICS
RELAXATION TIME
THERMAL EQUILIBRIUM
THERMALIZATION