Institut de Physique Théorique
Direction de la Recherche Fondamentale  -  Saclay
UMR 3681 - INP
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Mercredi 18 octobre 2017

Publication : t17/153

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Effects of initial-state dynamics on collective flow within a coupled transport and viscous hydrodynamic approach

Chattopadhyay C. ()
Bhalerao R.S. ()
Ollitrault J.-Y. (CEA, IPhT (Institut de Physique Théorique), F-91191 Gif-sur-Yvette, France)
Pal S. ()
Abstract:
We evaluate the effects of preequilibrium dynamics on observables in ultrarelativistic heavy-ion collisions. We simulate the initial nonequilibrium phase within A MultiPhase Transport (AMPT) model, while the subsequent near-equilibrium evolution is modeled using (2+1)-dimensional relativistic viscous hydrodynamics. We match the two stages of evolution carefully by calculating the full energy-momentum tensor from AMPT and using it as input for the hydrodynamic evolution. With a shear viscosity to entropy density ratio of 0.12 , our model describes quantitatively a large set of experimental data on Pb+Pb collisions at the Large Hadron Collider(LHC) over a wide range of centrality: differential anisotropic flow v n (p T ) (n=2−6) , event-plane correlations, correlation between v 2 and v 3 , and cumulant ratio v 2 {4}/v 2 {2} .
Année de publication : 2017
Preprint : arXiv:1710.03050
Langue : Anglais

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