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Surface depinning of smectic-A dislocations

Surface depinning of smectic-A dislocations
Surface depinning of smectic-A dislocations
Using a Landau–de Gennes approach, we model the formation of an edge dislocation in a smectic-A cell initially in the bookshelf structure. The driving force is the mismatch between the layer thickness in a bulk smectic-A liquid crystal and that imposed by confining plates. The core structure of the dislocation is calculated taking into account spatial variations of the smectic translational order parameter. We numerically determine the critical condition for the surface-driven formation and depinning of the dislocation. By exploiting this phenomenon, we show how the value of the positional anchoring strength at the surface can be determined.
1539-3755
031705-[6pp]
Slavinec, M.
0365ce01-efc8-4bd0-a940-c20e28094552
Kralj, S.
638e12ae-6365-443a-9a98-6039859df897
Zumer, S.
cbb96b95-ff71-4da8-8752-9121913e3e50
Sluckin, T.J.
8dbb6b08-7034-4ae2-aa65-6b80072202f6
Slavinec, M.
0365ce01-efc8-4bd0-a940-c20e28094552
Kralj, S.
638e12ae-6365-443a-9a98-6039859df897
Zumer, S.
cbb96b95-ff71-4da8-8752-9121913e3e50
Sluckin, T.J.
8dbb6b08-7034-4ae2-aa65-6b80072202f6

Slavinec, M., Kralj, S., Zumer, S. and Sluckin, T.J. (2001) Surface depinning of smectic-A dislocations. Physical Review E, 63 (3), 031705-[6pp]. (doi:10.1103/PhysRevE.63.031705).

Record type: Article

Abstract

Using a Landau–de Gennes approach, we model the formation of an edge dislocation in a smectic-A cell initially in the bookshelf structure. The driving force is the mismatch between the layer thickness in a bulk smectic-A liquid crystal and that imposed by confining plates. The core structure of the dislocation is calculated taking into account spatial variations of the smectic translational order parameter. We numerically determine the critical condition for the surface-driven formation and depinning of the dislocation. By exploiting this phenomenon, we show how the value of the positional anchoring strength at the surface can be determined.

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Published date: 2001

Identifiers

Local EPrints ID: 29584
URI: http://eprints.soton.ac.uk/id/eprint/29584
DOI: doi:10.1103/PhysRevE.63.031705
ISSN: 1539-3755
PURE UUID: 4a945f51-accd-45b3-b30a-12c3bda565d6
ORCID for T.J. Sluckin: ORCID iD orcid.org/0000-0002-9163-0061

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Date deposited: 12 May 2006
Last modified: 16 Mar 2024 02:32

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Contributors

Author: M. Slavinec
Author: S. Kralj
Author: S. Zumer
Author: T.J. Sluckin ORCID iD

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