Random-field Ising model criticality in a glass-forming liquid
Benjamin Guiselin, Ludovic Berthier, Gilles Tarjus
Abstract
We use computer simulations to investigate the extended phase diagram of a supercooled liquid linearly coupled to a quenched reference configuration. An extensive finite-size scaling analysis demonstrates the existence of a random-field Ising model (RFIM) critical point and of a first-order transition line, in agreement with recent field-theoretical approaches. The dynamics in the vicinity of this critical point resembles the peculiar activated scaling of RFIM-like systems, and the overlap autocorrelation displays a logarithmic stretching. Our study demonstrates RFIM criticality in the thermodynamic limit for a three-dimensional supercooled liquid at equilibrium.
Topics & Concepts
SupercoolingScalingCriticalityStatistical physicsCritical point (mathematics)Phase diagramIsing modelAutocorrelationPhysicsPhase transitionField (mathematics)Condensed matter physicsThermodynamicsPhase (matter)MathematicsGeometryQuantum mechanicsNuclear physicsPure mathematicsStatisticsMaterial Dynamics and PropertiesTheoretical and Computational PhysicsComplex Systems and Time Series Analysis