Effect of ionic charge on flexoelectric deformations in planar nematic layers

Liquid crystals (Print) Pub Date : 2004-09-01 DOI:10.1117/12.581133

M. Felczak, G. Derfel

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引用次数: 2

Abstract

Elastic deformations of nematic liquid crystal layers subjected to d.c. electric field were studied numerically. Nearly planar alignment with 1° tilt angle and with finite surface anchoring strength was assumed. The flexoelectric properties of the nematic material as well as the ionic space charge were taken into account. Perfectly blocking electrodes were adopted. The director orientation, the electric potential distribution and the space charge density were calculated. The optical transmission of the layer placed between crossed polarizers was also determined. The deformations had nearly threshold character due to the low value of the surface tilt. It was found that the threshold voltage strongly depended on the parameters of the system. When the nematic was not flexoelectric, the value of the threshold voltage was independent of the ion concentration and was equal to about 1 volt. In the case of a flexoelectric nematic, the threshold as low as a few tenths of a volt occurred when the ion concentration was sufficiently high, and given sufficiently large magnitudes of the flexoelectric coefficients. These results can be explained as the effect of the inhomogeneous electric field arising in vicinity of the surfaces created by the ionic space charge redistributed by the external voltage.

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离子电荷对平面向列层挠曲电变形的影响

用数值方法研究了直流电场作用下向列液晶层的弹性变形。假设近平面对中倾角为1°，表面锚固强度有限。考虑了向列材料的挠曲电性质和离子空间电荷。采用完全阻断电极。计算了定向器的取向、电势分布和空间电荷密度。放置在交叉偏振片之间的层的光传输也被确定。由于表面倾角较小，变形具有接近阈值的特征。结果表明，阈值电压与系统参数有很大关系。当向列非挠性电时，阈值电压的值与离子浓度无关，约等于1伏。在挠性电向列的情况下，当离子浓度足够高，并且给定足够大的挠性电系数时，阈值低至十分之一伏。这些结果可以解释为由外部电压重新分配的离子空间电荷在表面附近产生的不均匀电场的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Liquid crystals (Print)

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