QGP probes from a dynamical holographic model of AdS/QCD

TL;DR

This paper uses a holographic QCD model based on Einstein-Maxwell-Dilaton gravity to investigate quark-gluon plasma properties, including drag force and jet quenching, at finite temperature and chemical potential.

Contribution

It introduces a dynamical holographic model that captures QCD phases and computes key QGP probes, aligning with experimental data and other models.

Findings

Drag force and diffusion coefficients match experimental data.

Model captures both confinement and deconfinement phases.

Results are consistent with other holographic QCD models.

Abstract

In this paper, we employ the gauge/gravity duality to study some features of the quark gluon plasma. For this purpose, we implement a holographic QCD model constructed from an Einstein-Maxwell-Dilaton gravity at finite temperature and finite chemical potential. The model captures both the confinement and deconfinement phases of QCD and we use it to study the effect of temperature and chemical potential on a heavy quark moving through the plasma. We calculate the drag force, Langevin diffusion coefficients and also the jet quenching parameter, and our results align with other holographic QCD models and the experimental data.