Supercooled Goldstone Bosons at the QCD Chiral Phase Transition

Adrien Florio; Eduardo Grossi; Aleksas Mazeliauskas; Alexander Soloviev; Derek Teaney

doi:10.1103/wyn4-ncdc

Supercooled Goldstone Bosons at the QCD Chiral Phase Transition

Adrien Florio
, Eduardo Grossi
, Aleksas Mazeliauskas
, Alexander Soloviev
, Derek Teaney

Physics and Astronomy

Bielefeld University
United States Department of Energy
National Institute for Nuclear Physics
Heidelberg University
University of Ljubljana

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

1 Scopus citations

Abstract

We discuss a universal nonequilibrium enhancement of long-wavelength Goldstone bosons induced by quenches to the broken phase in Model G - the dynamical universality class of an O(4) antiferromagnet and the chiral phase transition in QCD. Scaling arguments for the coarsening dynamics describing the formation of the chiral condensate predict a parametric enhancement in the infrared spectra of Goldstone bosons, a prediction confirmed by stochastic simulations of the transition. The details of the enhancement are determined by the nonlinear dynamics of a superfluid effective theory, which is a limit of Model G reflecting the broken O(4) symmetry. Our results translate to a parametric enhancement of low-momentum pions in heavy-ion collisions at the LHC, which are underpredicted in current hydrodynamic models without critical dynamics.

Original language	English
Article number	242303
Journal	Physical Review Letters
Volume	135
Issue number	24
DOIs	https://doi.org/10.1103/wyn4-ncdc
State	Published - Dec 12 2025

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title = "Supercooled Goldstone Bosons at the QCD Chiral Phase Transition",

abstract = "We discuss a universal nonequilibrium enhancement of long-wavelength Goldstone bosons induced by quenches to the broken phase in Model G - the dynamical universality class of an O(4) antiferromagnet and the chiral phase transition in QCD. Scaling arguments for the coarsening dynamics describing the formation of the chiral condensate predict a parametric enhancement in the infrared spectra of Goldstone bosons, a prediction confirmed by stochastic simulations of the transition. The details of the enhancement are determined by the nonlinear dynamics of a superfluid effective theory, which is a limit of Model G reflecting the broken O(4) symmetry. Our results translate to a parametric enhancement of low-momentum pions in heavy-ion collisions at the LHC, which are underpredicted in current hydrodynamic models without critical dynamics.",

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AU - Florio, Adrien

AU - Grossi, Eduardo

AU - Mazeliauskas, Aleksas

AU - Soloviev, Alexander

AU - Teaney, Derek

PY - 2025/12/12

Y1 - 2025/12/12

N2 - We discuss a universal nonequilibrium enhancement of long-wavelength Goldstone bosons induced by quenches to the broken phase in Model G - the dynamical universality class of an O(4) antiferromagnet and the chiral phase transition in QCD. Scaling arguments for the coarsening dynamics describing the formation of the chiral condensate predict a parametric enhancement in the infrared spectra of Goldstone bosons, a prediction confirmed by stochastic simulations of the transition. The details of the enhancement are determined by the nonlinear dynamics of a superfluid effective theory, which is a limit of Model G reflecting the broken O(4) symmetry. Our results translate to a parametric enhancement of low-momentum pions in heavy-ion collisions at the LHC, which are underpredicted in current hydrodynamic models without critical dynamics.

AB - We discuss a universal nonequilibrium enhancement of long-wavelength Goldstone bosons induced by quenches to the broken phase in Model G - the dynamical universality class of an O(4) antiferromagnet and the chiral phase transition in QCD. Scaling arguments for the coarsening dynamics describing the formation of the chiral condensate predict a parametric enhancement in the infrared spectra of Goldstone bosons, a prediction confirmed by stochastic simulations of the transition. The details of the enhancement are determined by the nonlinear dynamics of a superfluid effective theory, which is a limit of Model G reflecting the broken O(4) symmetry. Our results translate to a parametric enhancement of low-momentum pions in heavy-ion collisions at the LHC, which are underpredicted in current hydrodynamic models without critical dynamics.

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VL - 135

JO - Physical Review Letters

JF - Physical Review Letters

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Supercooled Goldstone Bosons at the QCD Chiral Phase Transition

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