Liquid Crystals. Iam-Choon Khoo
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Название: Liquid Crystals

Автор: Iam-Choon Khoo

Издательство: John Wiley & Sons Limited

Жанр: Техническая литература

Серия:

isbn: 9781119705796

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СКАЧАТЬ into the dynamical equations describing the field‐induced effects in nematic liquid crystals.

Schematic illustration of soft-boundary condition. The applied field will reorient both the surface and bulk director axis.

      From Eq. (3.6) for the free energy, one can obtain the corresponding so‐called molecular fields ModifyingAbove f With right harpoon with barb up using the Lagrange equation [3]. In spatial coordinate component form, we have

      (3.10)g Subscript italic alpha beta Baseline equals StartFraction partial-differential n Subscript alpha Baseline Over partial-differential x Subscript beta Baseline EndFraction period

      and torque ModifyingAbove normal upper Gamma With right harpoon with barb up equals ModifyingAbove n With ampersand c period circ semicolon times ModifyingAbove f With right harpoon with barb up, where

      (3.12)splay colon ModifyingAbove f With right harpoon with barb up Subscript 1 Baseline equals upper K 1 nabla left-parenthesis nabla dot n right-parenthesis comma

      (3.14)bend colon ModifyingAbove f With right harpoon with barb up Subscript 3 Baseline equals upper K 3 left-bracket ModifyingAbove upper B With right harpoon with barb up times left-parenthesis nabla times n right-parenthesis plus nabla times left-parenthesis n times ModifyingAbove upper B With right harpoon with barb up right-parenthesis right-bracket comma

      with upper A equals ModifyingAbove n With ampersand c period circ semicolon dot left-parenthesis nabla times ModifyingAbove n With ampersand c period circ semicolon right-parenthesis and ModifyingAbove upper B With right harpoon with barb up equals ModifyingAbove n With ampersand c period circ semicolon times left-parenthesis nabla times ModifyingAbove n With ampersand c period circ semicolon right-parenthesis.

      Dielectric constants and refractive indices, as well as electrical conductivities of liquid crystals, are physical parameters that characterize the electronic responses of liquid crystals to externally applied fields (electric, magnetic, or optical). Because of the molecular and energy level structures of nematic molecules, these responses are highly dependent on the direction and the frequencies of the field. Accordingly, we shall classify our studies of dielectric permittivity and other electro‐optical parameters into two distinctive frequency regimes: (1) dc and low frequency and (2) optical frequency. Where the transition from the regime (1) to (2) occurs, of course, is governed by the dielectric relaxation processes and the dynamical time constant; typically, the Debye relaxation frequencies in nematics are on the order of 1010 Hz.

      3.3.1. DC and Low‐frequency Dielectric Permittivity, Conductivities, and Magnetic Susceptibility

      The dielectric constant ε is defined by the Maxwell equation [5]: