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Main Authors: Barata, João, Moult, Ian, Silva, João M.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.18174
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author Barata, João
Moult, Ian
Silva, João M.
author_facet Barata, João
Moult, Ian
Silva, João M.
contents The main modification to high $p_t$ jets evolving in the quark gluon plasma is the depletion of their energy to the thermal background. Despite the prominent role played by energy loss effects in jet quenching, their theoretical description is still limited, being, to a large extent, driven by phenomenological considerations. As the field moves towards the measurement of multi-scale jet substructure observables, it is necessary to develop new field theoretic techniques to describe energy loss. In this letter, we highlight a formal similarity between energy loss, and the renormalization group based track function formalism for computing jet substructure observables on charged particles. We introduce an energy loss function, $L_i(x)$, tracking the energy fraction $x$ flowing from an initial hard parton $i$ down to the measured hadrons, and show that its renormalization group evolution can be studied in perturbative QCD, and is related to that of the track functions. The features of this new approach are illustrated in the computation of projected energy correlators, opening the window to a better theoretical treatment of these observables in heavy ion collisions.
format Preprint
id arxiv_https___arxiv_org_abs_2409_18174
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Tracking Energy Loss in Heavy Ion Collisions
Barata, João
Moult, Ian
Silva, João M.
High Energy Physics - Phenomenology
Nuclear Theory
The main modification to high $p_t$ jets evolving in the quark gluon plasma is the depletion of their energy to the thermal background. Despite the prominent role played by energy loss effects in jet quenching, their theoretical description is still limited, being, to a large extent, driven by phenomenological considerations. As the field moves towards the measurement of multi-scale jet substructure observables, it is necessary to develop new field theoretic techniques to describe energy loss. In this letter, we highlight a formal similarity between energy loss, and the renormalization group based track function formalism for computing jet substructure observables on charged particles. We introduce an energy loss function, $L_i(x)$, tracking the energy fraction $x$ flowing from an initial hard parton $i$ down to the measured hadrons, and show that its renormalization group evolution can be studied in perturbative QCD, and is related to that of the track functions. The features of this new approach are illustrated in the computation of projected energy correlators, opening the window to a better theoretical treatment of these observables in heavy ion collisions.
title Tracking Energy Loss in Heavy Ion Collisions
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2409.18174