铁电向列液晶中沿导演场的非对称热导率

IF 2.4 3区物理与天体物理 Q1 Mathematics

Physical review. E Pub Date : 2024-09-09 DOI:10.1103/physreve.110.034703

Lidiane Maria de Souza, Junaid Sofi, Erms Pereira

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引用次数: 0

摘要

铁电向列型液晶（FNLC）的合成结束了人们对其存在的漫长等待，以及其在多种液晶应用中的潜在用途。在 FNLC 中，向列相中的电极化可显著缩短导通显示像素的开关时间。在本文中，我们报告了铁电向列相中热量沿导演场 n ̂ 传播时发生平移对称性破坏的情况。由于这种相具有 C∞V 对称性，且与弯芯极性液晶相十分相似，因此用等级-3 张量来描述其标量阶参数和代数推导。有限元模拟显示了沿 n ̂方向的非对称热导率。FNLC 中的优先热传输可使其成为全热单相非纳米结构单一材料热整流器。我们希望这项研究能为 FNLCs 作为功能层和油墨的应用做出贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Nonsymmetrical thermal conductivity along the director field in ferroelectric nematic liquid crystals

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Nonsymmetrical thermal conductivity along the director field in ferroelectric nematic liquid crystals

The synthesis of ferroelectric nematic liquid crystals (FNLCs) concludes the long wait for their existence and potential usage in multiple liquid crystal based applications. In FNLCs, electric polarization in the nematic phase significantly decreases the switching time of in-on display pixels. In this article, we report the occurrence of translation symmetry breaking for heat propagation along the director field

\hat{n}

in the ferroelectric nematic phase. Due to the

C_{\infty V}

symmetry of such a phase and close similarity to the bent-core polar liquid crystal phase, a rank-3 tensor describes its scalar order parameter and algebraic deductions. The finite element simulations show the occurrence of the nonsymmetrical thermal conductivity along

\hat{n}

. The preferential heat transport in FNLCs can allow them to work as an all-thermal monophase non-nanostructured single-material thermal rectifier. We expect that this study will contribute towards the FNLCs application as functional layers and inks.

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来源期刊

Physical review. E 物理-物理：流体与等离子体

CiteScore

4.60

自引率

16.70%

发文量

审稿时长

3.3 months

期刊介绍： Physical Review E (PRE), broad and interdisciplinary in scope, focuses on collective phenomena of many-body systems, with statistical physics and nonlinear dynamics as the central themes of the journal. Physical Review E publishes recent developments in biological and soft matter physics including granular materials, colloids, complex fluids, liquid crystals, and polymers. The journal covers fluid dynamics and plasma physics and includes sections on computational and interdisciplinary physics, for example, complex networks.