Holographic transport coefficients and jet energy loss for the hot and dense quark-gluon plasma

Joaquin Grefa; Mauricio Hippert; Raghav Kunnawalkam Elayavalli; Jacquelyn Noronha-Hostler; Israel Portillo; Claudia Ratti; Romulo Rougemont

doi:10.1051/epjconf/202429614014

All issues

Volume 296 (2024)

EPJ Web Conf., 296 (2024) 14014

Abstract

Open Access

Issue		EPJ Web Conf. Volume 296, 2024 30^th International Conference on Ultra-Relativistic Nucleus-Nucleus Collisions (Quark Matter 2023)


Article Number		14014
Number of page(s)		4
Section		QCD at Finite T and Density
DOI		https://doi.org/10.1051/epjconf/202429614014
Published online		26 June 2024

EPJ Web of Conferences 296, 14014 (2024)
https://doi.org/10.1051/epjconf/202429614014

Holographic transport coefficients and jet energy loss for the hot and dense quark-gluon plasma

Joaquin Grefa¹^,2, Mauricio Hippert³, Raghav Kunnawalkam Elayavalli⁴, Jacquelyn Noronha-Hostler², Israel Portillo¹, Claudia Ratti¹ and Romulo Rougemont⁵

¹ Department of Physics, University of Houston, Houston, Texas 77204, USA
² Department of Physics, Kent State University, Kent, Ohio 44243, USA
³ Illinois Center for Advanced Studies of the Universe, Department of Physics, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA
⁴ Department of Physics and Astronomy, Vanderbilt University, Nashville, Tennessee, 37235, USA
⁵ Instituto de Física, Universidade Federal de Goiás, Av. Esperança - Campus Samambaia, CEP 74690-900, Goiânia, Goiás, Brazil

^* e-mail: vgrefaju@central.uh.edu

Published online: 26 June 2024

Abstract

We employ an Einstein-Maxwell-dilaton model, based on the gauge/gravity correspondence, to obtain the thermodynamics and transport properties for the hot and dense quark-gluon plasma. The model, which is constrained to reproduce lattice QCD thermodynamics at zero density, predicts a critical point and a first order line at finite temperature and density, is used to quantify jet energy loss through simulations of high-energy collision events.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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