We present a numerical code modeling the evolution of the medium formed in relativistic heavy ion collisions, ECHO-QGP. The code solves relativistic hydrodynamics in (3 + 1)D, with dissipative terms included within the framework of Israel-Stewart theory; it can work both in Minkowskian and in Bjorken coordinates. Initial conditions are provided through an implementation of the Glauber model (both Optical and Monte Carlo), while freezeout and particle generation are based on the Cooper-Frye prescription. The code is validated against several test problems and shows remarkable stability and accuracy with the combination of a conservative (shock-capturing) approach and the high-order methods employed. In particular it beautifully agrees with the semi-analytic solution known as Gubser flow, both in the ideal and in the viscous Israel-Stewart case, up to very large times and without any ad hoc tuning of the algorithm.

Heavy ion collision evolution modeling with ECHO-QGP / V. Rolando; G. Inghirami; A. Beraudo; L. Del Zanna; F. Becattini; V. Chandra; A. De Pace; M. Nardi. - In: NUCLEAR PHYSICS. A. - ISSN 0375-9474. - STAMPA. - 931:(2014), pp. 970-974. [10.1016/j.nuclphysa.2014.08.011]

Heavy ion collision evolution modeling with ECHO-QGP

INGHIRAMI, GABRIELE;DEL ZANNA, LUCA;BECATTINI, FRANCESCO;
2014

Abstract

We present a numerical code modeling the evolution of the medium formed in relativistic heavy ion collisions, ECHO-QGP. The code solves relativistic hydrodynamics in (3 + 1)D, with dissipative terms included within the framework of Israel-Stewart theory; it can work both in Minkowskian and in Bjorken coordinates. Initial conditions are provided through an implementation of the Glauber model (both Optical and Monte Carlo), while freezeout and particle generation are based on the Cooper-Frye prescription. The code is validated against several test problems and shows remarkable stability and accuracy with the combination of a conservative (shock-capturing) approach and the high-order methods employed. In particular it beautifully agrees with the semi-analytic solution known as Gubser flow, both in the ideal and in the viscous Israel-Stewart case, up to very large times and without any ad hoc tuning of the algorithm.
2014
931
970
974
V. Rolando; G. Inghirami; A. Beraudo; L. Del Zanna; F. Becattini; V. Chandra; A. De Pace; M. Nardi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/977196
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