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Self-Induced Heterogeneity in Deeply Supercooled Liquids

Ludovic Berthier

2021Physical Review Letters42 citationsDOIOpen Access PDF

Abstract

A theoretical treatment of deeply supercooled liquids is difficult because their properties emerge from spatial inhomogeneities that are self-induced, transient, and nanoscopic. I use computer simulations to analyze self-induced static and dynamic heterogeneity in equilibrium systems approaching the experimental glass transition. I characterize the broad sample-to-sample fluctuations of salient dynamic and thermodynamic properties in elementary mesoscopic systems. Findings regarding local lifetimes and distributions of dynamic heterogeneity are in excellent agreement with recent single molecule studies. Surprisingly broad thermodynamic fluctuations are also found, which correlate well with dynamic fluctuations, thus providing a local test of the thermodynamic origin of slow dynamics.

Topics & Concepts

SupercoolingMesoscopic physicsStatistical physicsMolecular dynamicsGlass transitionDynamical heterogeneityMaterials scienceDynamics (music)Chemical physicsThermodynamicsPhysicsCondensed matter physicsPolymerComposite materialAcousticsQuantum mechanicsMaterial Dynamics and PropertiesTheoretical and Computational PhysicsThermodynamic properties of mixtures
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