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#carousel1 li{ width:150px; height:180px; } #carousel2 li{ width:150px; height:180px; } On the nature of the glass transition

mercredi 23 novembre 2022
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Under cooling, a supercooled liquid undergoes a glass transition and stops flowing. Physicists do not agree on the microscopic reasons that make a glass solid. Some view this phenomenon as being collective in nature: it may be a signature of a thermodynamic phase transition, or being caused by kinetic constraints (where particles seek to solve a sort of Chinese puzzle). Others view it as simply reflecting elementary barriers for rearrangements, controlled by the elasticity of the material. Here I will focus on polydisperse numerical glasses, which are receiving a considerable attention, because they can be equilibrated as efficiently as experimental molecular liquids. I will (I) design new algorithms that can continuously speed up or slow down the normal physical dynamics, ruling out the role of a thermodynamic phase transition [1]. (ii) Introduce a novel algorithm to systematically extract elementary rearrangements in a broad energy range. It allows to make, for the first time, a quantitative prediction on the relaxation time, assuming that relaxation is not collective in nature. The comparison with observation is excellent [2]. (iii) I will explain why, in such a scenario, dynamical correlations emerge even if they have little effects on the dynamics [3]. (iv) I will discuss the nature of elementary rearrangements under cooling, and how these aspects relate to mean field description of glasses. [4]

[1] ongoing work with Cristina Gavazzoni and Carolina Brito
[2] The energy cost of local rearrangements, not cooperative effects, makes glasses solid
MP Ciamarra, W Ji, M Wyart arXiv:2302.05150
[3] ongoing work with Giulio Biroli, Misaki Ozawa, Marko Popovic and Ali Tahaei
[4] Mean-field description for the architecture of low-energy excitations in glasses
W Ji, TWJ de Geus, E Agoritsas, M Wyart
Physical Review E 105 (4), 044601

Conférence donnée par Matthieu Wyart (Ecole Polytechnique Fédérale de Lausanne) lors du colloquium 2021/2022 du département de physique de l'ENS.

Thèmes : Physique
Catégories: Colloquium / Séminaire général du département de physique
Mot-clés : verre, refroidissement, algorithme, physique statistique, transition vitreuse

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