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Trapped Ion Quantum Computing

Universal Symmetry-Breaking Dynamics at Continuous Phase Transitions: Evidence for a New Dynamical Critical Exponent

arXiv

Authors: Tobias Wiener, Laurin Brunner, Markus Heyl

Year

2026

Paper ID

60709

Status

Preprint

Abstract Read

~2 min

Abstract Words

169

Citations

Abstract

Uncovering and understanding universal dynamics in matter far from equilibrium remains a key challenge. In this work, we identify a so far unrecognized form of universal behavior that emerges after a sudden symmetry-breaking quench at continuous phase transitions. Our key observation is that the order-parameter fluctuations in Ising models exhibit a compelling temporal collapse across a wide range of system sizes and quench strengths, indicative of an emergent single-variable scaling form. This phenomenon can be explained by introducing a so far unknown dynamical critical exponent for the underlying continuous phase transition. We find evidence for a lower critical effective dimension of this universal regime: it is observed in the 2D quantum and 3D and 4D classical Ising models, but not in the 1D quantum or 2D classical cases. Our results suggest that our observed universal far-from-equilibrium scaling may extend beyond the Ising models studied here and could more broadly characterize systems with non-conserved order parameters, opening new avenues for exploring universal dynamics both theoretically and in current experimental platforms.

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Uncovering and understanding universal dynamics in matter far from equilibrium remains a key challenge.

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References & Citation Signals

[1] DOI https://doi.org/arXiv:2605.07753 [2] arXiv https://arxiv.org/abs/2605.07753 [3] Publisher https://arxiv.org/abs/2605.07753

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