Probing the multi-scale dynamical interaction between heavy quarks and   the QGP using JETSCAPE

W. Fan; G. Vujanovic; A. Angerami; S. A. Bass; S. Cao; Y. Chen; J.; Coleman; L. Cunqueiro; T. Dai; L. Du; R. Ehlers; H. Elfner; D. Everett; R.; Fries; C. Gale; F. Garza; Y. He; M. Heffernan; U. Heinz; B. V. Jacak; P. M.; Jacobs; S. Jeon; W. Ke; E. Khalaj; B. Kim; M. Kordell II; A. Kumar; D.; Liyanage; T. Luo; M. Luzum; A. Majumder; M. McNelis; J. Mulligan; C.; Nattrass; D. Oliinychenko; L. G. Pang; C. Park; J.-F. Paquet; J. H. Putschke,; G. Roland; B. Schenke; L. Schwiebert; C. Shen; A. Silva; C. Sirimanna; R. A.; Soltz; Y. Tachibana; X. -N. Wang; R. L. Wolpert; Y. Xu (JETSCAPE; Collaboration)

arXiv:2009.04946·nucl-th·August 11, 2022

Probing the multi-scale dynamical interaction between heavy quarks and the QGP using JETSCAPE

W. Fan, G. Vujanovic, A. Angerami, S. A. Bass, S. Cao, Y. Chen, J., Coleman, L. Cunqueiro, T. Dai, L. Du, R. Ehlers, H. Elfner, D. Everett, R., Fries, C. Gale, F. Garza, Y. He, M. Heffernan, U. Heinz, B. V. Jacak, P. M., Jacobs, S. Jeon, W. Ke, E. Khalaj, B. Kim, M. Kordell II

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TL;DR

This paper investigates how heavy quark mass influences jet evolution and energy loss in the quark-gluon plasma using the JETSCAPE framework, revealing differences in jet modification for heavy versus light flavors.

Contribution

It introduces a multi-stage modeling approach combining MATTER and LBT generators within JETSCAPE to study heavy quark energy loss mechanisms in a realistic QGP environment.

Findings

01

Different nuclear modification factors for heavy and light flavor jets.

02

Impact of virtuality-dependent energy loss mechanisms on jet evolution.

03

Interplay between various energy-loss regimes affecting heavy quark propagation.

Abstract

The dynamics of shower development for a jet traveling through the QGP involves a variety of scales, one of them being the heavy quark mass. Even though the mass of the heavy quarks plays a subdominant role during the high virtuality portion of the jet evolution, it does affect longitudinal drag and diffusion, stimulating additional radiation from heavy quarks. These emissions partially compensate the reduction in radiation from the dead cone effect. In the lower virtuality part of the shower, when the mass is comparable to the transverse momenta of the partons, scattering and radiation processes off heavy quarks differ from those off light quarks. All these factors result in a different nuclear modification factor for heavy versus light flavors and thus for heavy-flavor tagged jets. In this study, the heavy quark shower evolution and the fluid dynamical medium are modeled on an event…

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Particle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions