Email this article Mechanisms of Rotational Dynamics of Chiral Liquid Crystal Droplets in an Electric Field
- Authors: Skaldin O.A.1, Tarasov O.S.1, Timirov Y.I.1, Basyrova E.R.1
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Affiliations:
- Institute of Molecules and Crystals Physics, Ufa Scientific Center
- Issue: Vol 126, No 2 (2018)
- Pages: 255-261
- Section: Statistical, Nonlinear, and Soft Matter Physics
- URL: https://journals.rcsi.science/1063-7761/article/view/192832
- DOI: https://doi.org/10.1134/S1063776118010181
- ID: 192832
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Abstract
The dynamics of the orientational structure of chiral nematic (CN) droplets in an isotropic medium in dc and ac electric fields is investigated by the polarized light microscopy technique. It is shown theoretically that the dynamics of rotational processes in these kinds of systems is determined by electroconvective processes developing due to the flexoelectric polarization associated with the initial configuration of the director field in droplets. It is established experimentally that the linear and quadratic regions of dependence of the rotational velocity of droplets on the electric field strength are explained by the above-mentioned mechanisms. Numerical simulation on the basis of the approach developed gives good agreement with experimental data.
About the authors
O. A. Skaldin
Institute of Molecules and Crystals Physics, Ufa Scientific Center
Email: timirov@anrb.ru
Russian Federation, pr. Oktyabrya 151, Ufa, 450075
O. S. Tarasov
Institute of Molecules and Crystals Physics, Ufa Scientific Center
Email: timirov@anrb.ru
Russian Federation, pr. Oktyabrya 151, Ufa, 450075
Yu. I. Timirov
Institute of Molecules and Crystals Physics, Ufa Scientific Center
Author for correspondence.
Email: timirov@anrb.ru
Russian Federation, pr. Oktyabrya 151, Ufa, 450075
E. R. Basyrova
Institute of Molecules and Crystals Physics, Ufa Scientific Center
Email: timirov@anrb.ru
Russian Federation, pr. Oktyabrya 151, Ufa, 450075
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