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Main Authors: Mazumder, Surasree, Sharma, Natasha, Kumar, Lokesh
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.09824
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_version_ 1866917778920833024
author Mazumder, Surasree
Sharma, Natasha
Kumar, Lokesh
author_facet Mazumder, Surasree
Sharma, Natasha
Kumar, Lokesh
contents Drag and diffusion coefficients of the Heavy Quarks (HQs), such as charm and bottom, are one of the prime tools for discerning the properties of the deconfined QCD medium created in the Heavy Ion Collisions experiments. The innate non-perturbative nature of the QCD medium renders it imperative to estimate the transport coefficients in that domain. The present work evaluates the drag and diffusion coefficients of the moving HQ interacting with the medium particles via two-body collisional and three-body radiative processes to the first order in opacity by employing Gribov mechanism for the non-perturbative regime. We proffer the latest results of the HQ transport coefficients computed for the non-perturbative and non-eikonal gluon radiation off the HQ. The calculations show significant increment of the transport coefficients with the increasing non-eikonality by juxtaposing the results with those of the pertubative and eikonal regions. We hope to shed fresh light towards explaining the experimental data on the nuclear modification facor, $R_{AA}$, the elliptic flow, $v_2$ of the HQ by advocating the importance of the non-eikonality of the gluon radiation off the HQ.
format Preprint
id arxiv_https___arxiv_org_abs_2408_09824
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Transport coefficients of the heavy quark in the domain of the non-perturbative and non-eikonal gluon radiation
Mazumder, Surasree
Sharma, Natasha
Kumar, Lokesh
High Energy Physics - Phenomenology
Nuclear Theory
Drag and diffusion coefficients of the Heavy Quarks (HQs), such as charm and bottom, are one of the prime tools for discerning the properties of the deconfined QCD medium created in the Heavy Ion Collisions experiments. The innate non-perturbative nature of the QCD medium renders it imperative to estimate the transport coefficients in that domain. The present work evaluates the drag and diffusion coefficients of the moving HQ interacting with the medium particles via two-body collisional and three-body radiative processes to the first order in opacity by employing Gribov mechanism for the non-perturbative regime. We proffer the latest results of the HQ transport coefficients computed for the non-perturbative and non-eikonal gluon radiation off the HQ. The calculations show significant increment of the transport coefficients with the increasing non-eikonality by juxtaposing the results with those of the pertubative and eikonal regions. We hope to shed fresh light towards explaining the experimental data on the nuclear modification facor, $R_{AA}$, the elliptic flow, $v_2$ of the HQ by advocating the importance of the non-eikonality of the gluon radiation off the HQ.
title Transport coefficients of the heavy quark in the domain of the non-perturbative and non-eikonal gluon radiation
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2408.09824