E. A. Ayrjan scite author profile

Irregular nematic liquid crystal waveguide structures were investigated by the numeric simulation and experimentally. The dependence of attenuation coefficient (optical losses) of the waveguide modes and the effective sizes (correlation radii) of quasi-stationary irregularities of the liquid-crystal layer on the linear polarization of the incident laser radiation and the presence of pulse-periodic electric field were experimentally observed and investigated. An estimate is made of the correlation radii of liquid-crystal waveguide quasi-stationary irregularities. The observed decrease in the attenuation coefficient of the waveguide modes and the effective sizes of irregularities in the liquid-crystal layer, when the external electric field is switched on, explained by the effect of the decrease in the fluctuations correlation radii of the local orientation of the molecules of the liquid crystal. Experimental spectral density function of the statistical quasi-stationary nematic liquid crystal irregularities was restored and relevant statistical parameters are given. The obtained results are undoubtedly important for further research of dynamic processes inside non stationary waveguide liquid crystal layers, both from the theoretical point of view for understanding kinetic processes in the liquid crystals, and with practical,-in the organization and carrying out suitable experimental researches.

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Simulation of the Static Electric Field Effect on the Director Orientation of Nematic Liquid Crystal in the Transition State

Ayriyan

Ayrjan

Dencheva-Zarkova

et al. 2019

Phys. Wave Phen.

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E. A. Ayrjan

Some features of second harmonic generation in the nematic liquid crystal 5CB in the pulsed-periodic electric field

Numerical Modeling of the Static Electric Field Effect on the Director of the Nematic Liquid Crystal Director

Irregular liquid crystal waveguide structures: analysis of quasi-stationary fluctuations, power loss and statistical properties of irregularities.

Simulation of the Static Electric Field Effect on the Director Orientation of Nematic Liquid Crystal in the Transition State

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