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Main Authors: Hammou, Aoumeur Daddi, Delorme, Stéphane, Blaizot, Jean-Paul, Gossiaux, Pol-Bernard, Gousset, Thierry
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.08772
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author Hammou, Aoumeur Daddi
Delorme, Stéphane
Blaizot, Jean-Paul
Gossiaux, Pol-Bernard
Gousset, Thierry
author_facet Hammou, Aoumeur Daddi
Delorme, Stéphane
Blaizot, Jean-Paul
Gossiaux, Pol-Bernard
Gousset, Thierry
contents Quarkonium production in ultrarelativistic heavy ions collisions is one of the best probes of the QGP formed in these collisions. Resorting to accurate methods to describe the $Q\bar{Q}$ evolution in a QGP is a prerequisite for the precise interpretation of experimental data. Among these methods, the quantum master equations (QME) derived within the formalism of open quantum systems are particularly relevant. We present exact numerical solutions in a 1D setting of previously derived quantum master equations (QME) in their quantum Brownian regime. Distinctive features of the in-medium bottomonia evolution with the QME are presented; some phenomenological consequences are addressed by considering evolutions for a fixed as well as EPOS4 temperature profiles. Next, we investigate the accuracy of the semiclassical approximation (often used to describe charmonium production in URHIC) by benchmarking the corresponding evolutions on the exact solutions derived with the QME for the case of a $c\bar{c}$ pair.
format Preprint
id arxiv_https___arxiv_org_abs_2501_08772
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quarkonium dynamics in the quantum Brownian regime with non-abelian quantum master equations
Hammou, Aoumeur Daddi
Delorme, Stéphane
Blaizot, Jean-Paul
Gossiaux, Pol-Bernard
Gousset, Thierry
High Energy Physics - Phenomenology
High Energy Physics - Theory
Quantum Physics
Quarkonium production in ultrarelativistic heavy ions collisions is one of the best probes of the QGP formed in these collisions. Resorting to accurate methods to describe the $Q\bar{Q}$ evolution in a QGP is a prerequisite for the precise interpretation of experimental data. Among these methods, the quantum master equations (QME) derived within the formalism of open quantum systems are particularly relevant. We present exact numerical solutions in a 1D setting of previously derived quantum master equations (QME) in their quantum Brownian regime. Distinctive features of the in-medium bottomonia evolution with the QME are presented; some phenomenological consequences are addressed by considering evolutions for a fixed as well as EPOS4 temperature profiles. Next, we investigate the accuracy of the semiclassical approximation (often used to describe charmonium production in URHIC) by benchmarking the corresponding evolutions on the exact solutions derived with the QME for the case of a $c\bar{c}$ pair.
title Quarkonium dynamics in the quantum Brownian regime with non-abelian quantum master equations
topic High Energy Physics - Phenomenology
High Energy Physics - Theory
Quantum Physics
url https://arxiv.org/abs/2501.08772