Journal
SOFT MATTER
Volume 17, Issue 9, Pages 2500-2511Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0sm01794a
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Funding
- University of Oxford Clarendon Fund Scholarship
- Novo Nordisk Foundation [NNF18SA0035142]
- Villum Fonden [29476]
- Danish Council for Independent Research, Natural Sciences [DFF-117155-1001]
- European Union [847523]
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Increasing friction enhances memory effects, resulting in persistent trails of topological defects in the director field, forming arch-like patterns. In high friction conditions, creating new defects becomes difficult, while existing defects organize into parallel arches.
We use analytic arguments and numerical solutions of the continuum, active nematohydrodynamic equations to study how friction alters the behaviour of active nematics. Concentrating on the case where there is nematic ordering in the passive limit, we show that, as the friction is increased, memory effects become more prominent and +1/2 topological defects leave increasingly persistent trails in the director field as they pass. The trails are preferential sites for defect formation and they tend to impose polar order on any new +1/2 defects. In the absence of noise and for high friction, it becomes very difficult to create defects, but trails formed by any defects present at the beginning of the simulations persist and organise into parallel arch-like patterns in the director field. We show aligned arches of equal width are approximate steady state solutions of the equations of motion which co-exist with the nematic state. We compare our results to other models in the literature, in particular dry systems with no hydrodynamics, where trails, arches and polar defect ordering have also been observed.
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