Determining the jet transport coefficient $\hat{q}$ of the quark-gluon   plasma using Bayesian parameter estimation

J. Mulligan; A. Angerami; R. Arora; S. A. Bass; S. Cao; Y. Chen; J.; Coleman; L. Cunqueiro; T. Dai; L. Du; R. Ehlers; H. Elfner; D. Everett; W.; Fan; R. Fries; C. Gale; F. Garza; Y. He; M. Heffernan; U. Heinz; B. V. Jacak,; P. M. Jacobs; S. Jeon; W. Ke; B. Kim; M. Kordell II; A. Kumar; D. Liyanage,; M. Luzum; A. Majumder; S. Mak; M. McNelis; C. Nattrass; D. Oliinychenko; 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; G. Vujanovic; X. -N.; Wang; R. L. Wolpert; Y. Xu (JETSCAPE Collaboration)

arXiv:2106.11348·nucl-th·June 23, 2021

Determining the jet transport coefficient $\hat{q}$ of the quark-gluon plasma using Bayesian parameter estimation

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

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TL;DR

This paper uses Bayesian methods within the JETSCAPE framework to precisely determine how the jet transport coefficient $\

Contribution

It introduces a novel Bayesian approach to constrain $\

Findings

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Provides state-of-the-art constraints on $\

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Models $\

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Accounts for experimental systematic uncertainties

Abstract

We present a new determination of $\overset{q}{^}$ , the jet transport coefficient of the quark-gluon plasma. Using the JETSCAPE framework, we use Bayesian parameter estimation to constrain the dependence of $\overset{q}{^}$ on the jet energy, virtuality, and medium temperature from experimental measurements of inclusive hadron suppression in Au-Au collisions at RHIC and Pb-Pb collisions at the LHC. These results are based on a multi-stage theoretical approach to in-medium jet evolution with the MATTER and LBT jet quenching models. The functional dependence of $\overset{q}{^}$ on jet energy, virtuality, and medium temperature is based on a perturbative picture of in-medium scattering, with components reflecting the different regimes of applicability of MATTER and LBT. The correlation of experimental systematic uncertainties is accounted for in the parameter extraction. These results provide state-of-the-art…

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Taxonomy

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