SISSA, International School for Advanced Studies, Via Bonomea 265, 34136 Trieste, Italy.
Phys Rev Lett. 2013 May 31;110(22):228101. doi: 10.1103/PhysRevLett.110.228101. Epub 2013 May 29.
Liquid crystals inevitably possess topological defect excitations generated through boundary conditions, through applied fields, or in quenches to the ordered phase. In equilibrium, pairs of defects coarsen and annihilate as the uniform ground state is approached. Here we show that defects in active liquid crystals exhibit profoundly different behavior, depending on the degree of activity and its contractile or extensile character. While contractile systems enhance the annihilation dynamics of passive systems, extensile systems act to drive defects apart so that they swarm around in the manner of topologically well-characterized self-propelled particles. We develop a simple analytical model for the defect dynamics which reproduces the key features of both the numerical solutions and recent experiments on microtubule-kinesin assemblies.
液晶不可避免地存在拓扑缺陷激发,这些激发是通过边界条件、外加场或对有序相的淬火产生的。在平衡态,缺陷对通过粗化和湮灭来接近均匀的基态。我们发现,活性液晶中的缺陷表现出非常不同的行为,这取决于活性的程度及其收缩或扩张的性质。虽然收缩系统增强了被动系统的湮灭动力学,但扩张系统则会将缺陷驱动分开,使得它们以拓扑上特征良好的自推进粒子的方式聚集在一起。我们为缺陷动力学开发了一个简单的分析模型,该模型再现了数值解和最近关于微管-动力蛋白组装体的实验的关键特征。
