Related papers: Observation of universal non-Gaussian statistics of the order parameter across a continuous phase transition

Observation of universal non-Gaussian statistics of the order parameter across a continuous phase transition

URL: http://arxiv.org/abs/2508.21623v1
Date: Fri, 29 Aug 2025 13:35:53 GMT
Title: Observation of universal non-Gaussian statistics of the order parameter across a continuous phase transition
Authors: Maxime Allemand, Géraud Dupuy, Paul Paquiez, Nicolas Dupuis, Adam Rançon, Tommaso Roscilde, Thomas Chalopin, David Clément,
Abstract summary: We measure the full probability distribution of the amplitude of the order parameter across a continuous phase transition in a Bose gas.<n>We observe non-Gaussian statistics of the order parameter near the transition, distinguished by non-zero and oscillating high-order cumulants.<n>Our results underscore the crucial role of order parameter statistics in probing critical phenomena and universality.
Score: 0.08513247664857014
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Second-order phase transitions are characterised by critical scaling and universality. The singular behaviour of thermodynamic quantities at the transition, in particular, is determined by critical exponents of the universality class of the transition. However, critical properties are also characterised by the probability distribution of order parameter across the transition, where non-Gaussian statistics are expected, but remain largely unexplored. Here, making use of single-atom-resolved detection in momentum space, we measure the full probability distribution of the amplitude of the order parameter across a continuous phase transition in an interacting lattice Bose gas. We find that fluctuations are captured by an effective potential -- reconstructed from the measured probability distribution by analogy with Landau theory -- displaying a non-trivial minimum in the superfluid (ordered) phase, which vanishes at the transition point. Additionally, we observe non-Gaussian statistics of the order parameter near the transition, distinguished by non-zero and oscillating high-order cumulants. We provide direct experimental evidence that these oscillations are universal, and show numerically that they exhibit critical scaling. Our experiments are conducted in inhomogeneous systems, challenging the conventional understanding of criticality, which is primarily based on homogeneous models. Our results underscore the crucial role of order parameter statistics in probing critical phenomena and universality.

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