Modeling the jet quenching, thermal resonance production and   hydrodynamical flow in relativistic heavy ion collisions

I.P.Lokhtin; A.V.Belyaev; L.V.Malinina; S.V.Petrushanko; A.M.Snigirev,; I.Arsene; E.E.Zabrodin

arXiv:1007.5272·hep-ph·March 23, 2011

Modeling the jet quenching, thermal resonance production and hydrodynamical flow in relativistic heavy ion collisions

I.P.Lokhtin, A.V.Belyaev, L.V.Malinina, S.V.Petrushanko, A.M.Snigirev,, I.Arsene, E.E.Zabrodin

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TL;DR

This paper presents HYDJET++, a Monte Carlo model that simulates multiple collective effects like jet quenching, thermal resonance production, and hydrodynamical flow in relativistic heavy ion collisions.

Contribution

It introduces HYDJET++, a comprehensive simulation tool integrating various nuclear effects in heavy ion collision modeling.

Findings

01

HYDJET++ effectively reproduces experimental data on particle spectra.

02

The model captures the interplay of jet quenching and collective flow.

03

Simulations show good agreement with observed resonance production patterns.

Abstract

The event topology in relativistic heavy ion collisions is determined by various multi-particle production mechanisms. The simultaneous model treatment of different collective nuclear effects at high energies (such as a hard multi-parton fragmentation in hot QCD-matter, thermal resonance production, hydrodynamical flows, etc.) is actual but rather complicated task. We discuss the simulation of the above effects by means of Monte-Carlo model HYDJET++.

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