The $QCD$ parameters are affected by power-law Maxwell field

TL;DR

This paper explores how power-law Maxwell fields influence QCD parameters like jet quenching and entropic force within a black hole thermodynamics framework using AdS/CFT correspondence.

Contribution

It introduces Einstein power-law Maxwell-Scalar gravity in higher dimensions and analyzes the impact of power-law Maxwell fields on QCD parameters via holographic methods.

Findings

Power-law Maxwell fields significantly affect jet quenching parameters.

Entropic force is influenced by the power-law Maxwell field.

Dissociation length of quark-antiquark pairs varies with the power-law parameter p.

Abstract

In this paper, we introduce Einstein power-law Maxwell-Scalar gravity with Liouvill potential in n + 1 dimension. The corresponding metric background or solution of above mentioned action lead us to achieve some thermodynamics quantities of black hole. On the other hand, we take information from $AdS/CFT$ correspondence and investigate some parameters in $QCD$ as jet quenching and entropic force. We note that two obtained parameters give some important information about $Q\bar{Q}$ moving in $QGP$ media and dissociation length of quark-antiquark. Finally, we have several figures for the jet quenching parameter and entropic force. The corresponding figures show how two parameters are affected by power law Maxwell field with different of $p$.