卷曲液晶微泳器：一系列自发对称破缺

Curling Liquid Crystal Microswimmers: A Cascade of Spontaneous Symmetry Breaking.

作者信息

Krüger Carsten, Klös Gunnar, Bahr Christian, Maass Corinna C

机构信息

Max Planck Institute for Dynamics and Self-Organization (MPIDS), Am Faßberg 17, 37077 Göttingen, Germany.

出版信息

Phys Rev Lett. 2016 Jul 22;117(4):048003. doi: 10.1103/PhysRevLett.117.048003. Epub 2016 Jul 21.

DOI:10.1103/PhysRevLett.117.048003

PMID:27494501

Abstract

We report curling self-propulsion in aqueous emulsions of common mesogenic compounds. Nematic liquid crystal droplets self-propel in a surfactant solution with concentrations above the critical micelle concentration while undergoing micellar solubilization [Herminghaus et al., Soft Matter 10, 7008 (2014)]. We analyzed trajectories both in a Hele-Shaw geometry and in a 3D setup at variable buoyancy. The coupling between the nematic director field and the convective flow inside the droplet leads to a second symmetry breaking which gives rise to curling motion in 2D. This is demonstrated through a reversible transition to nonhelical persistent swimming by heating to the isotropic phase. Furthermore, autochemotaxis can spontaneously break the inversion symmetry, leading to helical trajectories in 3D.

摘要

我们报道了常见介晶化合物水乳液中的卷曲自推进现象。向列型液晶液滴在表面活性剂浓度高于临界胶束浓度的溶液中自推进，同时发生胶束增溶作用[赫尔明豪斯等人，《软物质》10, 7008 (2014)]。我们在可变浮力的Hele-Shaw几何结构和三维装置中分析了轨迹。向列型指向矢场与液滴内部对流之间的耦合导致了第二次对称性破缺，从而在二维中产生卷曲运动。这通过加热到各向同性相可逆地转变为非螺旋持久游动得以证明。此外，自趋化作用可以自发地打破反演对称性，在三维中导致螺旋轨迹。

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Curling Liquid Crystal Microswimmers: A Cascade of Spontaneous Symmetry Breaking.卷曲液晶微泳器：一系列自发对称破缺

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卷曲液晶微泳器：一系列自发对称破缺

Curling Liquid Crystal Microswimmers: A Cascade of Spontaneous Symmetry Breaking.

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