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Anisotropic super-attenuation of capillary waves on driven glass interfaces

Anisotropic super-attenuation of capillary waves on driven glass interfaces
Anisotropic super-attenuation of capillary waves on driven glass interfaces
Metrological atomic force microscopy measurements are performed on the silica glass interfaces of photonic band-gap fibers and hollow capillaries. The freezing of attenuated out-of-equilibrium capillary waves during the drawing process is shown to result in a reduced surface roughness. The roughness attenuation with respect to the expected thermodynamical limit is determined to vary with the drawing stress following a power law. A striking anisotropic character of the height correlation is observed: glass surfaces thus retain a structural record of the direction of the flow to which the liquid was submitted.
1079-7114
1-6
Bresson, Bruno
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Brun, Coralie
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Buet, Xavier
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Chen, Yong
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Ciccotti, Matteo
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Gâteau, Jérôme
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Jasion, Gregory
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Petrovich, Marco N.
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Poletti, Francesco
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Richardson, David J.
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Sandoghchi, Seyed Reza
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Tessier, Gilles
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Tyukodi, Botond
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Vandembroucq, Damien
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Bresson, Bruno
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Brun, Coralie
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Buet, Xavier
dc6f090d-1d14-47e4-a42b-3c6135feedf0
Chen, Yong
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Ciccotti, Matteo
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Gâteau, Jérôme
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Jasion, Gregory
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Petrovich, Marco N.
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Poletti, Francesco
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Richardson, David J.
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Sandoghchi, Seyed Reza
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Tessier, Gilles
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Tyukodi, Botond
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Vandembroucq, Damien
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Bresson, Bruno, Brun, Coralie, Buet, Xavier, Chen, Yong, Ciccotti, Matteo, Gâteau, Jérôme, Jasion, Gregory, Petrovich, Marco N., Poletti, Francesco, Richardson, David J., Sandoghchi, Seyed Reza, Tessier, Gilles, Tyukodi, Botond and Vandembroucq, Damien (2017) Anisotropic super-attenuation of capillary waves on driven glass interfaces. Physical Review Letters, 119 (23), 1-6, [235501]. (doi:10.1103/PhysRevLett.119.235501).

Record type: Article

Abstract

Metrological atomic force microscopy measurements are performed on the silica glass interfaces of photonic band-gap fibers and hollow capillaries. The freezing of attenuated out-of-equilibrium capillary waves during the drawing process is shown to result in a reduced surface roughness. The roughness attenuation with respect to the expected thermodynamical limit is determined to vary with the drawing stress following a power law. A striking anisotropic character of the height correlation is observed: glass surfaces thus retain a structural record of the direction of the flow to which the liquid was submitted.

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Anisotropic super-attenuation of capillary waves on driven glass interfaces - Accepted Manuscript
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Accepted/In Press date: 17 October 2017
e-pub ahead of print date: 5 December 2017
Published date: 8 December 2017
Learn more about Institute for Life Sciences research Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 416663
URI: http://eprints.soton.ac.uk/id/eprint/416663
DOI: doi:10.1103/PhysRevLett.119.235501
ISSN: 1079-7114
PURE UUID: db1e6294-eae2-4c50-83dc-ccb1d50431a3
ORCID for Yong Chen: ORCID iD orcid.org/0000-0003-0383-6113
ORCID for Gregory Jasion: ORCID iD orcid.org/0000-0001-5030-6479
ORCID for Marco N. Petrovich: ORCID iD orcid.org/0000-0002-3905-5901
ORCID for Francesco Poletti: ORCID iD orcid.org/0000-0002-1000-3083
ORCID for David J. Richardson: ORCID iD orcid.org/0000-0002-7751-1058

Catalogue record

Date deposited: 04 Jan 2018 17:30
Last modified: 16 Mar 2024 04:16

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Contributors

Author: Bruno Bresson
Author: Coralie Brun
Author: Xavier Buet
Author: Yong Chen ORCID iD
Author: Matteo Ciccotti
Author: Jérôme Gâteau
Author: Gregory Jasion ORCID iD
Author: Marco N. Petrovich ORCID iD
Author: Francesco Poletti ORCID iD
Author: David J. Richardson ORCID iD
Author: Seyed Reza Sandoghchi
Author: Gilles Tessier
Author: Botond Tyukodi
Author: Damien Vandembroucq

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