Data and scripts from: Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling

Berthier, Ludovic; Ninarello, Andrea; Yaida, Sho; Coslovich, Daniele; Ozawa, Misaki; Charbonneau, Patrick

Data and scripts from: Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling

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The data files in this collection are associated with "Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling", Berthier, Ludovic; Charbonneau, Patrick; Coslovich, Daniele; Ninarello, Andrea; Ozawa, Misaki; Yaida, Sho, Proc. Natl. Acad. Sci. U.S.A, 2017. They include .dat, .m, .gp, .eps, .opj, and .xmg files to allow for the replication of the figures. Figures were generated using the following programs - MatLab R2016b, Gnuplot version 5.0, OriginPro 2015J (academic), or Grace-5.1.23.

Liquids relax extremely slowly on approaching the glass state. One explanation is that an entropy crisis, because of the rarefaction of available states, makes it increasingly arduous to reach equilibrium in that regime. Validating this scenario is challenging, because experiments offer limited resolution, while numerical studies lag more than eight orders of magnitude behind experimentally relevant timescales. In this work, we not only close the colossal gap between experiments and simulations but manage to create in silico configurations that have no experimental analog yet. Deploying a range of computational tools, we obtain four estimates of their configurational entropy. These measurements consistently confirm that the steep entropy decrease observed in experiments is also found in simulations, even beyond the experimental glass transition. Our numerical results thus extend the observational window into the physics of glasses and reinforce the relevance of an entropy crisis for understanding their formation.

Updated title and abstract from "Data and scripts from: Breaking the glass ceiling: Configurational entropy measurements in extremely supercooled liquids" on 2017-11-03. ... [Read More]

Total Size: 167 files (1.56 MB)

Data Citation

Berthier, L., Charbonneau, P., Coslovich, D., Ninarello, A., Ozawa, M., Yaida, S. (2017). Data and scripts from: Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling. Duke Digital Repository. https://doi.org/10.7924/G8ZG6Q9T

Creator: Berthier, Ludovic
Ninarello, Andrea
Yaida, Sho
Coslovich, Daniele
Ozawa, Misaki
Charbonneau, Patrick
DOI: 10.7924/G8ZG6Q9T
Subject: Relaxation phenomena
Glass transition temperature
Publication Date: September 19, 2017
ARK: ark:/87924/r44m93n34
Affiliation: Laboratoire Charles Coulomb, Université de Montpellier
Chemistry
Physics
Publisher: Duke Digital Repository
Language: eng
Type: Dataset
Format: DAT
GP
EPS
M
TXT
Related Materials: Berthier, L., Charbonneau, P., Coslovich, D., Ninarello, A., Ozawa, M., & Yaida, S. (2017). Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling. Proceedings of the National Academy of Sciences of the United States of America, 114(43), 11356–11361. https://doi.org/10.1073/pnas.1706860114
Contact: Sho Yaida: ORCID: 0000-0001-5429-0785
License: Creative Commons CC0 1.0 Universal
Title: Data and scripts from: Configurational entropy measurements in extremely supercooled liquids that break the glass ceiling
License: http://creativecommons.org/publicdomain/zero/1.0/
Repository: Duke Research Data Repository

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Title	Date Uploaded	Visibility
Figure S1	2018-09-11	Public
Figure S10A	2018-09-11	Public
Figure S5B	2018-09-11	Public
Figure 1B	2018-09-11	Public
Figure S2A	2018-09-11	Public
Figure S11	2018-09-11	Public
Figure S12	2018-09-11	Public
Figure 2C	2018-09-11	Public
Figure S3	2018-09-11	Public
Figure S9B	2018-09-11	Public

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