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Main Authors: An, Xin, Brants, Robbe, Heller, Michal P., Yin, Yi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.11555
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author An, Xin
Brants, Robbe
Heller, Michal P.
Yin, Yi
author_facet An, Xin
Brants, Robbe
Heller, Michal P.
Yin, Yi
contents Contemporary understanding of thermalization in quantum field theory stems largely from understanding properties of transient excitations of equilibria. These nonhydrodynamic excitations are known to structurally differ between weakly- and strongly-coupled quantum field theories with no known results at intermediate values of the interaction strength. We demonstrate that all the known behaviors of transient excitations can be understood as a consequence of different realizations of a symmetry principle, the shift symmetry, applied at the level of the far from equilibrium generalization of the hydrodynamic effective action that we explicitly construct. Our approach naturally includes the effects of stochastic fluctuations outside the hydrodynamic regime and allows to explicitly construct hybrid models interpolating between weak- and strong-coupling behavior. We study properties of one such model motivated by thermalization in nuclear collisions in light of the QCD running coupling.
format Preprint
id arxiv_https___arxiv_org_abs_2511_11555
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Building far-from-equilibrium effective field theories using shift symmetries
An, Xin
Brants, Robbe
Heller, Michal P.
Yin, Yi
High Energy Physics - Theory
Contemporary understanding of thermalization in quantum field theory stems largely from understanding properties of transient excitations of equilibria. These nonhydrodynamic excitations are known to structurally differ between weakly- and strongly-coupled quantum field theories with no known results at intermediate values of the interaction strength. We demonstrate that all the known behaviors of transient excitations can be understood as a consequence of different realizations of a symmetry principle, the shift symmetry, applied at the level of the far from equilibrium generalization of the hydrodynamic effective action that we explicitly construct. Our approach naturally includes the effects of stochastic fluctuations outside the hydrodynamic regime and allows to explicitly construct hybrid models interpolating between weak- and strong-coupling behavior. We study properties of one such model motivated by thermalization in nuclear collisions in light of the QCD running coupling.
title Building far-from-equilibrium effective field theories using shift symmetries
topic High Energy Physics - Theory
url https://arxiv.org/abs/2511.11555