Modeling a Realistic Dynamical Model for High Energy Heavy Ion   Collisions

Chiho Nonaka; Masayuki Asakawa

arXiv:1204.4795·nucl-th·July 10, 2012·1 cites

Modeling a Realistic Dynamical Model for High Energy Heavy Ion Collisions

Chiho Nonaka, Masayuki Asakawa

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TL;DR

This paper develops a detailed dynamical model for high energy heavy ion collisions, integrating initial conditions, hydrodynamics, hadronization, and freezeout, validated against RHIC experimental data.

Contribution

It introduces a comprehensive multi-module model for heavy ion collisions, combining various physical processes for improved accuracy.

Findings

01

Model aligns well with RHIC data

02

Highlights importance of each collision stage

03

Provides a framework for future simulations

Abstract

In this article, we outline the modeling of a realistic dynamical model for comprehensive description of high energy heavy ion collisions. Comparing theoretical calculations and experimental data at RHIC, we give detailed discussions on the key ingredients for the construction of a multi-module model: initial condition, hydrodynamical expansion, hadronization, and freezeout processes.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Particle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions