Effects of random pinning on the potential energy landscape of a supercooled liquid

We use energy landscape methods to investigate the response of a supercooled liquid to random pinning. We classify the structural similarity of different energy minima using a measure of overlap. This analysis reveals a correspondence between distinct particle packings (which are characterised via t...

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Veröffentlicht in:	The Journal of chemical physics 2018-09, Vol.149 (11), p.114503-114503
Hauptverfasser:	Niblett, S. P., de Souza, V. K., Jack, R. L., Wales, D. J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Crossovers Energy measurement Funnels Pinning Potential energy
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container_issue	11
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container_title	The Journal of chemical physics
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creator	Niblett, S. P. de Souza, V. K. Jack, R. L. Wales, D. J.
description	We use energy landscape methods to investigate the response of a supercooled liquid to random pinning. We classify the structural similarity of different energy minima using a measure of overlap. This analysis reveals a correspondence between distinct particle packings (which are characterised via the overlap) and funnels on the energy landscape (which are characterised via disconnectivity graphs). As the number of pinned particles is increased, we find a crossover from glassy behavior at low pinning to a structure-seeking landscape at high pinning, in which all thermally accessible minima are structurally similar. We discuss the consequences of these results for theories of randomly pinned liquids. We also investigate how the energy landscape depends on the fraction of pinned particles, including the degree of frustration and the evolution of distinct packings as the number of pinned particles is reduced.
doi_str_mv	10.1063/1.5042140
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subjects	Crossovers Energy measurement Funnels Pinning Potential energy
title	Effects of random pinning on the potential energy landscape of a supercooled liquid
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