Holographic display and storage based on photo-responsive liquid crystals

IF 4.8 3区材料科学 Q2 CHEMISTRY, PHYSICAL Liquid Crystals Reviews Pub Date : 2016-07-02 DOI:10.1080/21680396.2016.1233079

Pengcheng Zhou, Yan Li, Xiao Li, Shuxin Liu, Yikai Su

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引用次数: 27

Abstract

ABSTRACT Liquid crystals (LCs) are widely used in nonlinear optics because of their sensitive responses to optical stimulation. Combined with other optoelectronic materials such as azo dyes, quantum dots (QDs), etc., LCs show very large optical nonlinearity which makes them suitable for applications in optical information processing, including holographic display and holographic storage. In this review, we present an overview of recent efforts on holographic display and storage based on liquid crystalline materials. Emphasis is placed on the dynamic holographic display which uses fast-response LCs doped with azo dye and QD. In this application, we discuss how to improve the response speed, resolution, and diffraction efficiency of liquid crystalline materials to realize high frame rate, large-size and high-brightness holographic displays. Some LC materials for holographic storage are also introduced, including polymer-dispersed liquid crystals, blue-phase liquid crystals, and azobenzene polymer liquid crystals, which have permanent response to light stimulation. The mechanisms of optical nonlinearities are discussed in detail, as a foundation for the physical process of LC-based holographic display and storage.

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基于光响应液晶的全息显示与存储

液晶由于对光学刺激的敏感响应而在非线性光学中得到广泛应用。与偶氮染料、量子点等其他光电材料结合使用，lc具有非常大的光学非线性，适用于光信息处理，包括全息显示和全息存储。本文综述了近年来基于液晶材料的全息显示和存储技术的研究进展。重点介绍了采用掺偶氮染料和量子点的快速响应液晶的动态全息显示技术。在这个应用中，我们讨论了如何提高液晶材料的响应速度、分辨率和衍射效率，以实现高帧率、大尺寸和高亮度的全息显示。介绍了一些用于全息存储的LC材料，包括聚合物分散液晶、蓝相液晶和偶氮苯聚合物液晶，它们对光刺激具有永久响应。详细讨论了光学非线性的机理，为基于lc的全息显示和存储的物理过程奠定了基础。

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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来源期刊

Liquid Crystals Reviews CHEMISTRY, PHYSICALCRYSTALLOGRAPHY&n-CRYSTALLOGRAPHY

CiteScore

7.60

自引率

5.90%

发文量

期刊介绍： Liquid Crystals Reviews publishes review articles on all aspects of liquid crystal fundamentals and applied science, including experimental and theoretical studies of physical and chemical properties, molecular design and synthesis and engineering of liquid crystal devices. The Journal fosters cross-disciplinary exchange of ideas, encouraging authors to present material at a level accessible to specialists from other fields of science and engineering. Liquid Crystals Reviews provides the scientific community, in both academia and industry, with a publication of standing, guaranteed by the Editors and by the International Editorial Board who are active scientists in the worldwide liquid crystal community.