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在具有锥形-平面边界条件的胆甾相层中电驱动周期性结构

Electrically turning periodic structures in cholesteric layer with conical-planar boundary conditions.

作者信息

Prishchepa Oxana, Krakhalev Mikhail, Rudyak Vladimir, Sutormin Vitaly, Zyryanov Victor

机构信息

Kirensky Institute of Physics, Federal Research Center KSC SB RAS, Krasnoyarsk, Russia, 660036.

Institute of Engineering Physics and Radio Electronics, Siberian Federal University, Krasnoyarsk, Russia, 660049.

出版信息

Sci Rep. 2021 Apr 16;11(1):8409. doi: 10.1038/s41598-021-87854-z.

Abstract

Electro-optical cell based on the cholesteric liquid crystal is studied with unique combination of the boundary conditions: conical anchoring on the one substrate and planar anchoring on another one. Periodic structures in cholesteric layer and their transformation under applied electric field are considered by polarizing optical microscopy, the experimental findings are supported by the data of the calculations performed using the extended Frank elastic continuum approach. Such structures are the set of alternating over- and under-twisted defect lines whose azimuthal director angles differ by [Formula: see text]. The [Formula: see text] and [Formula: see text]-defects of periodicity, which are the smooth transition between the defect lines, are observed at the edge of electrode area. The growth direction of defect lines forming a diffraction grating can be controlled by applying a voltage in the range of [Formula: see text] V during the process. Resulting orientation and distance between the lines don't change under voltage. However, at [Formula: see text] V [Formula: see text]-defects move along the defect lines away from the electrode edges, and, finally, the grating lines collapse at the cell's center. These results open a way for the use of such cholesteric material in applications with periodic defect structures where a periodicity, orientation, and configuration of defects should be adjusted.

摘要

研究了基于胆甾相液晶的电光单元,其具有独特的边界条件组合:在一个基板上为锥形锚定,在另一个基板上为平面锚定。通过偏振光学显微镜研究了胆甾相层中的周期性结构及其在施加电场下的转变,使用扩展的弗兰克弹性连续介质方法进行的计算数据支持了实验结果。这种结构是一组交替的过扭曲和欠扭曲缺陷线,其方位角指向矢角度相差[公式:见原文]。在电极区域边缘观察到周期性的[公式:见原文]和[公式:见原文]缺陷,它们是缺陷线之间的平滑过渡。在该过程中,通过施加[公式:见原文]V范围内的电压,可以控制形成衍射光栅的缺陷线的生长方向。线之间的最终取向和距离在电压下不变。然而,在[公式:见原文]V时,[公式:见原文]缺陷沿缺陷线远离电极边缘移动,最终,光栅线在单元中心坍塌。这些结果为在需要调整缺陷的周期性、取向和配置的周期性缺陷结构应用中使用这种胆甾相材料开辟了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62c2/8052423/84471d61d7e0/41598_2021_87854_Fig1_HTML.jpg

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