Flow characteristics and strangeness production in the framework of   highly-anisotropic and strongly-dissipative hydrodynamics

Rados{\l}aw Ryblewski

arXiv:1111.1909·hep-ph·April 16, 2012

Flow characteristics and strangeness production in the framework of highly-anisotropic and strongly-dissipative hydrodynamics

Rados{\l}aw Ryblewski

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TL;DR

This paper applies a highly-anisotropic, strongly dissipative hydrodynamics model in 3+1 dimensions to analyze flow and strangeness production in high-energy Au+Au collisions, revealing minimal dependence on initial anisotropy.

Contribution

It introduces and applies a novel hydrodynamics model to describe flow and strangeness in heavy-ion collisions at RHIC energies.

Findings

01

Weak dependence of results on initial momentum anisotropy

02

Anisotropic phase duration limited to about 1 fm/c

03

Successful description of flow and strangeness production

Abstract

The recently formulated model of highly-anisotropic and strongly dissipative hydrodynamics is used in 3+1 dimensions to describe flow characteristics and strangeness production in Au+Au collisions at the highest RHIC beam energy. Our results show very weak dependence on the initial momentum anisotropy, provided the anisotropic phase lasts no longer than 1 fm/c.

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