# Fast(submillisecond) Switching of Nematic Liquid Crystals and Effects of Dielectric Dispersion; Theory and Experiment

• Shiyanovskii, Sergij V. (Liquid Crystal Institute & Chemical Physics Interdisciplinary Program) ;
• Golovin, Andrii B. (Liquid Crystal Institute & Chemical Physics Interdisciplinary Program) ;
• Yin, Ye (Liquid Crystal Institute & Chemical Physics Interdisciplinary Program) ;
• Lavrentovich, Oleg D. (Liquid Crystal Institute & Chemical Physics Interdisciplinary Program)
• Published : 2005.07.19

#### Abstract

We demonstrate that the finite rate of dielectric relaxation in liquid crystals which has been ignored previously causes profound effects in the fast dielectric reorientation of the director. The phenomenon is relevant for submillisecond switching of the director when the switching rate approaches the rate of dielectric relaxation through the reorientation of the molecular dipoles. A submillisecond switching ($15-400\;{\mu}s$ for an optical retardation shift $0.3-2.2\;{\mu}m$ in $10-15\;{\mu}m$ thick cells) is demonstrated for dual frequency nematic cells with high pretilt that maximizes the dielectric torque acting on the director. We propose the theory of dielectric response in which the electric displacement depends not only on the present (as in the standard theory) but also on the past values of electric field and director. We design an experiment in which the standard "instantaneous" model and our model predict effects of opposite signs; the experimental data support the latter model.