Statistical mechanics of coupled supercooled liquids in finite dimensions
Benjamin Guiselin, Ludovic Berthier, Gilles Tarjus
SciPost Phys. 12, 091 (2022) · published 14 March 2022
- doi: 10.21468/SciPostPhys.12.3.091
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Abstract
We study the statistical mechanics of supercooled liquids when the system evolves at a temperature $T$ with a field $\epsilon$ linearly coupled to its overlap with a reference configuration of the same liquid sampled at a temperature $T_0$. We use mean-field theory to fully characterize the influence of the reference temperature $T_0$, and we mainly study the case of a fixed, low-$T_0$ value in computer simulations. We numerically investigate the extended phase diagram in the $(\epsilon,T)$ plane of model glass-forming liquids in spatial dimensions $d=2$ and $d=3$, relying on umbrella sampling and reweighting techniques. For both $2d$ and $3d$ cases, a similar phenomenology with nontrivial thermodynamic fluctuations of the overlap is observed at low temperatures, but a detailed finite-size analysis reveals qualitatively distinct behaviors. We establish the existence of a first-order transition line for nonzero $\epsilon$ ending in a critical point in the universality class of the random-field Ising model (RFIM) in $d=3$. In $d=2$ instead, no phase transition is found in large enough systems at least down to temperatures below the extrapolated calorimetric glass transition temperature $T_g$. Our results confirm that glass-forming liquid samples of limited size display the thermodynamic fluctuations expected for finite systems undergoing a random first-order transition. They also support the relevance of the physics of the RFIM for supercooled liquids, which may then explain the qualitative difference between $2d$ and $3d$ glass-formers.
Cited by 14
Authors / Affiliations: mappings to Contributors and Organizations
See all Organizations.- 1 Benjamin Guiselin,
- 1 2 Ludovic Berthier,
- 3 Gilles Tarjus
- 1 Laboratoire Charles Coulomb [L2C]
- 2 University of Cambridge
- 3 Laboratoire de Physique Théorique de la Matière Condensée / Laboratory of Theoretical Physics of Condensed Matter [LPTMC]