The Evolution of Dynamical Screening in the Parton Cacade Model

Helmut Satz (Universit\"at Bielefeld; Bielefeld); Dinesh Kumar; Srivastava (Variable Energy Cyclotron Centre; Calcutta; Universit\"at; Bielefeld; Bielefeld)

arXiv:hep-ph/9909510·hep-ph·August 15, 2016

The Evolution of Dynamical Screening in the Parton Cacade Model

Helmut Satz (Universit\"at Bielefeld, Bielefeld), Dinesh Kumar, Srivastava (Variable Energy Cyclotron Centre, Calcutta, Universit\"at, Bielefeld, Bielefeld)

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TL;DR

This paper investigates how the color screening mass evolves over time in high-energy nuclear collisions using the parton cascade model, shedding light on deconfinement and quarkonium suppression in non-equilibrium conditions.

Contribution

It provides a novel calculation of the dynamical evolution of the color screening mass within the parton cascade framework.

Findings

01

Determines the time-dependent behavior of the color screening mass.

02

Discusses implications for deconfinement and quarkonium suppression.

03

Addresses non-equilibrium environments in high-energy collisions.

Abstract

We determine the time evolution of the colour screening mass in high energy nuclear collisions, as provided by the parton cascade model. Using our result, we discuss the onset of deconfinement and the onset of quarkonium suppression in a general, not necessarily equilibrated environment of strongly interacting constituents.

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