Litcius/Paper detail

Finite Dimensional Vestige of Spinodal Criticality above the Dynamical Glass Transition

Ludovic Berthier, Patrick Charbonneau, Joyjit Kundu

2020Physical Review Letters23 citationsDOIOpen Access PDF

Abstract

Finite dimensional signatures of spinodal criticality are notoriously difficult to come by. The dynamical transition of glass-forming liquids, first described by mode-coupling theory, is a spinodal instability preempted by thermally activated processes that also limit how close the instability can be approached. We combine numerical tools to directly observe vestiges of the spinodal criticality in finite dimensional glass formers. We use the swap Monte Carlo algorithm to efficiently thermalize configurations beyond the mode-coupling crossover, and analyze their dynamics using a scheme to screen out activated processes, in spatial dimensions ranging from d=3 to d=10. We observe a strong softening of the mean-field square-root singularity in d=3 that is progressively restored as d increases above d=8, in surprisingly good agreement with perturbation theory.

Topics & Concepts

SpinodalInstabilityCriticalityStatistical physicsCrossoverPhysicsSpinodal decompositionCondensed matter physicsMechanicsQuantum mechanicsPhase (matter)Computer scienceArtificial intelligenceNuclear physicsMaterial Dynamics and PropertiesTheoretical and Computational PhysicsGlass properties and applications