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Spatial Heterogeneities in Structural Temperature Cause Kovacs’ Expansion Gap Paradox in Aging of Glasses

Matteo Lulli, Chun-Shing Lee, Hai-Yao Deng, Cho-Tung Yip, Chi‐Hang Lam

2020Physical Review Letters41 citationsDOIOpen Access PDF

Abstract

Volume and enthalpy relaxation of glasses after a sudden temperature change has been extensively studied since Kovacs' seminal work. One observes an asymmetric approach to equilibrium upon cooling versus heating and, more counterintuitively, the expansion gap paradox, i.e., a dependence on the initial temperature of the effective relaxation time even close to equilibrium when heating. Here, we show that a distinguishable-particle lattice model can capture both the asymmetry and the paradox. We quantitatively characterize the energetic states of the particle configurations using a physical realization of the fictive temperature called the structural temperature, which, in the heating case, displays a strong spatial heterogeneity. The system relaxes by nucleation and expansion of warmer mobile domains having attained the final temperature, against cooler immobile domains maintained at the initial temperature. A small population of these cooler regions persists close to equilibrium, thus explaining the paradox.

Topics & Concepts

NucleationAsymmetryRelaxation (psychology)Condensed matter physicsMaterials scienceWork (physics)PopulationEnthalpyLattice (music)ThermodynamicsStatistical physicsPhysicsPsychologyAcousticsQuantum mechanicsSocial psychologySociologyDemographyMaterial Dynamics and PropertiesPhase Equilibria and ThermodynamicsTheoretical and Computational Physics
Spatial Heterogeneities in Structural Temperature Cause Kovacs’ Expansion Gap Paradox in Aging of Glasses | Litcius