完全对齐的圆柱对称棒系统中的铁电向列相

arXiv - PHYS - Soft Condensed Matter Pub Date : 2024-09-15 DOI:arxiv-2409.09851

Agnieszka Chrzanowska, Lech Longa

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引用次数: 0

摘要

最近在实验中发现的铁电相和向列相激发了人们对理解稳定这些创新结构所必需的关键分子特征的兴趣。本研究通过研究分子伸长和分子偶极子沿分子主轴分布的意义，推进了正在进行的讨论。利用密度函数理论，我们确定了以圆柱对称和沿对称轴存在强平行偶极子为特征的分子形状可以导致铁电向列的自组装，这种向列比传统的单轴向列相更稳定。此外，我们还提供了沿分子轴实现最佳偶极子分布的标准。

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Ferroelectric nematic phase in the system of perfectly aligned cyllindrically symmetric rods

The recent experimental discovery of ferroelectric and splay nematic phases has sparked interest in comprehending the crucial molecular features necessary to stabilize these innovative structures. This study advances the ongoing discourse by investigating the significance of both molecular elongation and the distribution of molecular dipoles along the main molecular axis. Using Density Functional Theory, we have established that a molecular shape characterized by cylindrical symmetry and the presence of strong parallel dipoles along the symmetry axis can lead to the self-assembly of a ferroelectric nematic, which is more stable than the conventional uniaxial nematic phase. Additionally, we provide criteria for achieving an optimal dipole distribution along the molecular axis.

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arXiv - PHYS - Soft Condensed Matter

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