Energy loss and jet quenching parameter in a thermal non-relativistic, non-commutative Yang-Mills plasma

TL;DR

This paper investigates energy loss mechanisms and the jet quenching parameter for a heavy quark moving through a non-relativistic, non-commutative Yang-Mills plasma using holographic methods, providing new insights into quark-gluon plasma properties.

Contribution

It introduces a calculation of the jet-quenching parameter in a non-relativistic, non-commutative setting and compares it with drag force results, extending holographic QCD models.

Findings

Calculated the jet-quenching parameter for the non-relativistic, non-commutative plasma.

Derived the diffusion constant for a moving heavy quark in this plasma.

Compared the jet-quenching parameter with drag force results from previous work.

Abstract

In this paper we consider the problem of a moving heavy quark through a hot non-relativistic, non-commutative Yang-Mills plasma. We discuss about the configuration of the static quark and obtain the quasi-normal modes. Also we find the diffusion constant for the moving heavy quark. The main goal of this study is calculating the jet-quenching parameter for the non-relativistic, non-commutative theory and comparing it with drag forces which recently obtained from the another independent work [1]