Computer simulations of the glass transition and glassy materials
Jean‐Louis Barrat, Ludovic Berthier
Abstract
We provide an overview of the different types of computational techniques developed over the years to study supercooled liquids, glassy materials and the physics of the glass transition. We organise these numerical strategies into four broad families. For each of them, we describe the general ideas without discussing any technical details. We summarise the type of questions which can be addressed by any given approach and outline the main results which have been obtained. Finally we describe two important directions for future computational studies of glassy systems.
Topics & Concepts
SupercoolingGlass transitionComputer scienceStatistical physicsTransition (genetics)Engineering physicsMaterials sciencePhysicsThermodynamicsChemistryPolymerBiochemistryComposite materialGeneMaterial Dynamics and PropertiesTheoretical and Computational PhysicsGlass properties and applications