17–21 Aug 2026
University of Helsinki Main Building
Europe/Helsinki timezone

Superfluid dynamics of the QCD chiral phase transition

19 Aug 2026, 17:40
20m
F4050 (4th floor) (University of Helsinki Main Building)

F4050 (4th floor)

University of Helsinki Main Building

University of Helsinki Fabianinkatu 33 Finland
poster Heavy-ion collisions and the quark gluon plasma Poster Session

Speaker

Jannis Gebhard (Heidelberg University)

Description

High-energy heavy-ion collisions create a quark–gluon plasma (QGP) with approximately restored chiral symmetry. Lattice QCD determines the chiral crossover temperature to be $T_c \simeq 156 \pm 1.5 \, \mathrm{MeV}$, below which chiral symmetry is spontaneously broken and pions emerge as pseudo–Goldstone bosons. Yet, this chiral transition—second order in the chiral limit—is absent from current hydrodynamic models.

We present numerical studies of Model G, the dynamical universality class governing the QCD chiral phase transition. Using scaling arguments and stochastic simulations, we demonstrate a parametric enhancement of long-wavelength Goldstone modes after a quench into the broken phase. The coarsening dynamics following the quench can be effectively captured by a non-abelian pion superfluid description, from which we compute the nonequilibrium pion spectrum. Even with explicit chiral symmetry breaking, soft pion yields remain enhanced over parametrically long times. Coupling this superfluid dynamics to QGP hydrodynamics enables quantitative predictions for signatures of the chiral transition, most notably, enhanced soft pion production in heavy-ion collisions.

Refs.:
Jannis Gebhard, Aleksas Mazeliauskas and Derek Teaney, work in progress.
Adrien Florio, Eduardo Grossi, Aleksas Mazeliauskas, Alexander Soloviev and Derek Teaney, 2504.03514, 2504.03516 and work in progress.

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