Condensed Matter Physics, 2021, vol. 24, No. 1, 13601
DOI:10.5488/CMP.24.13601
arXiv:2103.15503
Title:
Orientational instability of the director in a nematic cell caused by electro-induced anchoring modification
Author(s):
 
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O.S. Tarnavskyy
(Faculty of Physics, Taras Shevchenko National University of Kyiv, Hlushkova Avenue, 4, 03022, Kyiv, Ukraine),
 
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M.F. Ledney
(Faculty of Physics, Taras Shevchenko National University of Kyiv, Hlushkova Avenue, 4, 03022, Kyiv, Ukraine)
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We theoretically investigate the threshold for the director reorientation from the homeotropic state to the hybrid homeotropic-planar
state and vice versa in a cell filled with a flexoelectric nematic liquid crystal (NLC) subjected to an electric field.
The liquid crystal is doped by a CTAB-like substance, a part of molecules of which dissociates into positive and negative ions.
The anchoring on one of the cell surfaces is assumed to be strong and homeotropic, while the other surface can adsorb positive
ions which play the role of an orienting surfactant for NLC molecules on this surface. At certain voltages, the orientational
transitions in the bulk of the NLC are possible due to the changing conditions for the director on the adsorbing surface. We
calculate respective threshold voltages as functions of anchoring parameters. The existence of the critical values of these parameters,
beyond which the orientational transitions do not take place, is established.
Key words:
nematic liquid crystal, orientational instability, threshold of orientational instability, boundary conditions, flexopolarization
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