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Universal coarsening in a homogeneous two-dimensional Bose gas

Martin Gazo, Andrey Karailiev, Tanish Satoor, Christoph Eigen, Maciej Gałka, Zoran Hadzibabic

2025Science10 citationsDOIOpen Access PDF

Abstract

Coarsening of an isolated far-from-equilibrium quantum system is a paradigmatic many-body phenomenon, relevant from subnuclear to cosmological length scales and predicted to feature universal dynamic scaling. Here, we observed universal scaling in the coarsening of a homogeneous two-dimensional Bose gas, with exponents that match analytical predictions. For different initial states, we reveal universal scaling in the experimentally accessible finite-time dynamics by elucidating and accounting for the initial-state-dependent prescaling effects. The methods we introduce allow direct comparison between cold-atom experiments and nonequilibrium field theory and are applicable to any study of universality far from equilibrium.

Topics & Concepts

Universality (dynamical systems)ScalingNon-equilibrium thermodynamicsHomogeneousBose gasPhysicsStatistical physicsQuantumQuantum mechanicsBose–Einstein condensateMathematicsGeometryQuantum many-body systemsStrong Light-Matter InteractionsAdvanced Thermodynamics and Statistical Mechanics
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