Front-Mediated Melting of Isotropic Ultrastable Glasses.

dc.contributor.author

Flenner, Elijah

dc.contributor.author

Berthier, Ludovic

dc.contributor.author

Charbonneau, Patrick

dc.contributor.author

Fullerton, Christopher J

dc.date.accessioned

2022-05-02T17:27:08Z

dc.date.available

2022-05-02T17:27:08Z

dc.date.issued

2019-10

dc.date.updated

2022-05-02T17:27:07Z

dc.description.abstract

Ultrastable vapor-deposited glasses display uncommon material properties. Most remarkably, upon heating they are believed to melt via a liquid front that originates at the free surface and propagates over a mesoscopic crossover length, before crossing over to bulk melting. We combine swap Monte Carlo with molecular dynamics simulations to prepare and melt isotropic amorphous films of unprecedendtly high kinetic stability. We are able to directly observe both bulk and front melting, and the crossover between them. We measure the front velocity over a broad range of conditions, and a crossover length scale that grows to nearly 400 particle diameters in the regime accessible to simulations. Our results disentangle the relative roles of kinetic stability and vapor deposition in the physical properties of stable glasses.

dc.identifier.issn

0031-9007

dc.identifier.issn

1079-7114

dc.identifier.uri

https://hdl.handle.net/10161/24989

dc.language

eng

dc.publisher

American Physical Society (APS)

dc.relation.ispartof

Physical review letters

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10.1103/physrevlett.123.175501

dc.subject

Science & Technology

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Physical Sciences

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Physics, Multidisciplinary

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Physics

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ORGANIC GLASSES

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STABLE GLASSES

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TRANSFORMATION

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STABILITY

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INDOMETHACIN

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TEMPERATURE

dc.title

Front-Mediated Melting of Isotropic Ultrastable Glasses.

dc.type

Journal article

duke.contributor.orcid

Charbonneau, Patrick|0000-0001-7174-0821

pubs.begin-page

175501

pubs.issue

17

pubs.organisational-group

Duke

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Trinity College of Arts & Sciences

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Chemistry

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Physics

pubs.publication-status

Published

pubs.volume

123

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