铁电向列相液晶中由极性表面相互作用配对的孤子壁。

Soliton walls paired by polar surface interactions in a ferroelectric nematic liquid crystal.

作者信息

Basnet Bijaya, Rajabi Mojtaba, Wang Hao, Kumari Priyanka, Thapa Kamal, Paul Sanjoy, Lavrentovich Maxim O, Lavrentovich Oleg D

机构信息

Advanced Materials and Liquid Crystal Institute, Kent State University, Kent, OH, 44242, USA.

Materials Science Graduate Program, Kent State University, Kent, OH, 44242, USA.

出版信息

Nat Commun. 2022 Jul 7;13(1):3932. doi: 10.1038/s41467-022-31593-w.

DOI:10.1038/s41467-022-31593-w

PMID:35798735

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9262936/

Abstract

Surface interactions are responsible for many properties of condensed matter, ranging from crystal faceting to the kinetics of phase transitions. Usually, these interactions are polar along the normal to the interface and apolar within the interface. Here we demonstrate that polar in-plane surface interactions of a ferroelectric nematic N produce polar monodomains in micron-thin planar cells and stripes of an alternating electric polarization, separated by [Formula: see text] domain walls, in thicker slabs. The surface polarity binds together pairs of these walls, yielding a total polarization rotation by [Formula: see text]. The polar contribution to the total surface anchoring strength is on the order of 10%. The domain walls involve splay, bend, and twist of the polarization. The structure suggests that the splay elastic constant is larger than the bend modulus. The [Formula: see text] pairs resemble domain walls in cosmology models with biased vacuums and ferromagnets in an external magnetic field.

摘要

表面相互作用决定了凝聚态物质的许多性质，从晶体刻面到相变动力学。通常，这些相互作用在垂直于界面的方向上是极性的，而在界面内是非极性的。在此，我们证明了铁电向列相N的面内极性表面相互作用在微米级薄的平面单元中产生极性单畴，并在较厚的平板中产生交替电极化的条纹，这些条纹由[公式：见原文]畴壁分隔。表面极性将这些壁对结合在一起，导致总极化旋转[公式：见原文]。极性对总表面锚定强度的贡献约为10%。畴壁涉及极化的展曲、弯曲和扭曲。该结构表明展曲弹性常数大于弯曲模量。[公式：见原文]对类似于具有偏向真空的宇宙学模型中的畴壁以及外部磁场中的铁磁体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9f4a/9262936/aa9bb32662c6/41467_2022_31593_Fig1_HTML.jpg

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铁电向列相液晶中由极性表面相互作用配对的孤子壁。

Soliton walls paired by polar surface interactions in a ferroelectric nematic liquid crystal.

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