Factorization of Jet Cross Sections in Heavy-Ion Collisions

Jian Wei Qiu; Felix Ringer; Nobuo Sato; Pia Zurita

doi:10.1103/PhysRevLett.122.252301

Factorization of Jet Cross Sections in Heavy-Ion Collisions

Jian Wei Qiu
, Felix Ringer
, Nobuo Sato
, Pia Zurita

Physics and Astronomy

Stony Brook University

Thomas Jefferson National Accelerator Facility
Old Dominion University
University of Regensburg

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data.

Original language	English
Article number	252301
Journal	Physical Review Letters
Volume	122
Issue number	25
DOIs	https://doi.org/10.1103/PhysRevLett.122.252301
State	Published - Jun 24 2019

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10.1103/PhysRevLett.122.252301

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title = "Factorization of Jet Cross Sections in Heavy-Ion Collisions",

abstract = "We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data.",

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AU - Ringer, Felix

AU - Sato, Nobuo

AU - Zurita, Pia

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N2 - We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data.

AB - We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data.

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Factorization of Jet Cross Sections in Heavy-Ion Collisions

Abstract

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