Tailoring on Rotational Symmetry of Liquid Crystal Domain Lattices

Advanced Physics Research Pub Date : 2023-12-31 DOI:10.1002/apxr.202300127

Jin-Bing Wu, Wei Hu

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Abstract

Rotational symmetry is ubiquitous in nature. However, self-assemblies of soft condensed matter such as liquid crystals (LCs) are entropy-driven, making the tailoring of rotational symmetry challenging. Here, an approach is proposed to control the rotational symmetry of LC domain lattices based on the anchoring condition predesign and the orientational-order inheritance during the nematic-smectic phase transition. By this means, periodic and quasiperiodic LC textures with C_i symmetry (i = 2–6) determined by the preset alignment lattices are realized, and verified by symmetries of diffraction patterns. Topological analysis is carried out to disclose distinct evolutions of orders between disclination line textures and defect wall textures of different rotational symmetries. The influences of anchoring conditions, phase transitions, and mechanical stress on the self-assembly of LCs, as well as the underlying mechanisms and dynamics, are investigated. This work realizes controllable rotational symmetry for large-area self-organized LCs and brings new insights to soft condensed matter.

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液晶域晶格旋转对称性的定制

旋转对称在自然界无处不在。然而，液晶等软凝聚态物质的自组装是由熵驱动的，因此定制旋转对称性具有挑战性。在此，我们提出了一种基于锚定条件预设计和向列-构造相变过程中的定向阶继承来控制液晶畴晶格旋转对称性的方法。通过这种方法，实现了由预设排列晶格决定的具有 Ci 对称性（i = 2-6）的周期性和准周期性 LC 纹理，并通过衍射图样的对称性进行了验证。拓扑分析揭示了不同旋转对称性的分离线纹理和缺陷壁纹理之间不同的阶次演变。研究了锚定条件、相变和机械应力对 LCs 自组装的影响，以及其基本机制和动力学。这项工作实现了大面积自组织 LC 的可控旋转对称性，为软凝聚态物质带来了新的启示。

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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Advanced Physics Research

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