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Auteurs principaux: Modarresi-Yazdi, Rouzbeh, Shi, Shuzhe, Gale, Charles, Jeon, Sangyong
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2503.03174
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author Modarresi-Yazdi, Rouzbeh
Shi, Shuzhe
Gale, Charles
Jeon, Sangyong
author_facet Modarresi-Yazdi, Rouzbeh
Shi, Shuzhe
Gale, Charles
Jeon, Sangyong
contents As an important signature of the quark-gluon plasma (QGP), a high-precision energy-loss model is essential to independently verify the QGP properties extracted from soft particles. In this work, we optimize the energy loss modeling in MARTINI by introducing the formation time of the parton shower in the initial hard scattering, which is essential for a simultaneous description of the hadron and jet $R_{AA}$. Based on this, we study the phenomenological influence of the higher order collision kernels -- the up-to-NLO one evaluated by EQCD and the non-perturbative (NP) one computed in lattice QCD -- on the energy loss of the hard parton, compared to the LO kernel. The hadron and jet $R_{AA}$ are calculated with AMY rates using the three kernels and the optimized parameter sets for the running coupling. The results exhibit remarkable similarities in their overall values as well as in $p_T$ and centrality dependence. Sizable differences in the jet substructure are observed between different soft radiation rates.
format Preprint
id arxiv_https___arxiv_org_abs_2503_03174
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Leading order, next-to-leading order, and non-perturbative parton collision kernels: Effects on the jet substructure
Modarresi-Yazdi, Rouzbeh
Shi, Shuzhe
Gale, Charles
Jeon, Sangyong
High Energy Physics - Phenomenology
As an important signature of the quark-gluon plasma (QGP), a high-precision energy-loss model is essential to independently verify the QGP properties extracted from soft particles. In this work, we optimize the energy loss modeling in MARTINI by introducing the formation time of the parton shower in the initial hard scattering, which is essential for a simultaneous description of the hadron and jet $R_{AA}$. Based on this, we study the phenomenological influence of the higher order collision kernels -- the up-to-NLO one evaluated by EQCD and the non-perturbative (NP) one computed in lattice QCD -- on the energy loss of the hard parton, compared to the LO kernel. The hadron and jet $R_{AA}$ are calculated with AMY rates using the three kernels and the optimized parameter sets for the running coupling. The results exhibit remarkable similarities in their overall values as well as in $p_T$ and centrality dependence. Sizable differences in the jet substructure are observed between different soft radiation rates.
title Leading order, next-to-leading order, and non-perturbative parton collision kernels: Effects on the jet substructure
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2503.03174