Electrically Switchable Transmissive and Reflective Liquid Crystal Polarization Gratings Based on Cholesteric Liquid Crystals

Yi-Te Chuang, Yu-Chieh Li, Ting‐Mao Feng, Chun-Ta Wang
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Abstract

Liquid crystal polarization gratings liquid crystal Pancharatnam‐Berry phase optical element (LCPGs) are a superior alternative to traditional diffraction gratings due to their high diffraction efficiency, strong polarization sensitivity, and versatile tunability. This paper introduces an electrically switchable liquid crystal polarization grating based on cholesteric liquid crystals (CLCs). The LCPG is designed to operate in reflective (R‐mode) and transmissive (T‐mode) states. It utilizes the standing helical (SH) configuration of CLCs for reflective functionality and transitions to a lying helical (LH) configuration for transmissive operations. This dual‐mode capability is achieved through a unique application of electric fields, which reorient the liquid crystal helix axis according to the desired optical function. The performance of the LCPG in both R‐mode and T‐mode is evaluated by applying different frequencies and voltages to dynamically switch between the helical states. The manufacturing process is simple, and the device performs robustly. This suggests that the technology could be useful for developing optical systems that require dynamic control over light modulation.

Abstract Image

基于胆甾型液晶的可电动切换透射和反射液晶偏振光栅
液晶偏振光栅液晶Pancharatnam-Berry相光学元件(LCPGs)具有高衍射效率、强偏振灵敏度和多功能可调性,是传统衍射光栅的优越替代品。本文介绍了一种基于胆甾型液晶(CLCs)的电动可切换液晶偏振光栅。LCPG 可在反射(R 模式)和透射(T 模式)状态下工作。它利用 CLC 的站立螺旋(SH)配置实现反射功能,并过渡到躺卧螺旋(LH)配置实现透射功能。这种双模功能是通过独特的电场应用实现的,电场可根据所需的光学功能调整液晶螺旋轴的方向。通过应用不同的频率和电压在螺旋状态之间进行动态切换,对 LCPG 在 R 模式和 T 模式下的性能进行了评估。制造工艺简单,器件性能稳定。这表明该技术可用于开发需要对光调制进行动态控制的光学系统。
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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