Defect transitions in nematic liquid-crystal capillary bridges

Perry W. Ellis; Shengnan Huang; Susannah Klaneček; Jayalakshmi Vallamkondu; Edward Dannemiller; Mark Vernon; Ya Wen Chang; Paul M. Goldbart; Alberto Fernandez-Nieves

doi:10.1103/PhysRevE.97.040701

Defect transitions in nematic liquid-crystal capillary bridges

Perry W. Ellis
, Shengnan Huang
, Susannah Klaneček
, Jayalakshmi Vallamkondu
, Edward Dannemiller
, Mark Vernon
, Ya Wen Chang
, Paul M. Goldbart
, Alberto Fernandez-Nieves

Physics and Astronomy

Georgia Institute of Technology
National Institute of Technology Warangal
Texas Tech University

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

We use experiment and computational modeling to understand the defect structure and director configuration in a nematic liquid crystal capillary bridge confined between two parallel plates. We find that tuning of the aspect ratio of the bridge drives a transition between a ring defect and a point defect. This transition exhibits hysteresis, due to the metastability of the point-defect structure. In addition, we see that the shape of the capillary-bridge surface determines whether the defect is hyperbolic or radial, with waistlike bridges containing hyperbolic defects and barrel-like bridges containing radial defects.

Original language	English
Article number	040701
Journal	Physical Review E
Volume	97
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevE.97.040701
State	Published - Apr 13 2018

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10.1103/PhysRevE.97.040701

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title = "Defect transitions in nematic liquid-crystal capillary bridges",

abstract = "We use experiment and computational modeling to understand the defect structure and director configuration in a nematic liquid crystal capillary bridge confined between two parallel plates. We find that tuning of the aspect ratio of the bridge drives a transition between a ring defect and a point defect. This transition exhibits hysteresis, due to the metastability of the point-defect structure. In addition, we see that the shape of the capillary-bridge surface determines whether the defect is hyperbolic or radial, with waistlike bridges containing hyperbolic defects and barrel-like bridges containing radial defects.",

author = "Ellis, \{Perry W.\} and Shengnan Huang and Susannah Klane{\v c}ek and Jayalakshmi Vallamkondu and Edward Dannemiller and Mark Vernon and Chang, \{Ya Wen\} and Goldbart, \{Paul M.\} and Alberto Fernandez-Nieves",

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AU - Ellis, Perry W.

AU - Huang, Shengnan

AU - Klaneček, Susannah

AU - Vallamkondu, Jayalakshmi

AU - Dannemiller, Edward

AU - Vernon, Mark

AU - Chang, Ya Wen

AU - Goldbart, Paul M.

AU - Fernandez-Nieves, Alberto

PY - 2018/4/13

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N2 - We use experiment and computational modeling to understand the defect structure and director configuration in a nematic liquid crystal capillary bridge confined between two parallel plates. We find that tuning of the aspect ratio of the bridge drives a transition between a ring defect and a point defect. This transition exhibits hysteresis, due to the metastability of the point-defect structure. In addition, we see that the shape of the capillary-bridge surface determines whether the defect is hyperbolic or radial, with waistlike bridges containing hyperbolic defects and barrel-like bridges containing radial defects.

AB - We use experiment and computational modeling to understand the defect structure and director configuration in a nematic liquid crystal capillary bridge confined between two parallel plates. We find that tuning of the aspect ratio of the bridge drives a transition between a ring defect and a point defect. This transition exhibits hysteresis, due to the metastability of the point-defect structure. In addition, we see that the shape of the capillary-bridge surface determines whether the defect is hyperbolic or radial, with waistlike bridges containing hyperbolic defects and barrel-like bridges containing radial defects.

UR - https://www.scopus.com/pages/publications/85045375395

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SN - 1063-651X

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JO - Physical Review E

JF - Physical Review E

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ER -

Defect transitions in nematic liquid-crystal capillary bridges

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