https://doi.org/10.1140/epje/s10189-025-00527-x
Regular Article - Flowing Matter
Orienting field effects on the flow of an active nematic liquid crystal in a channel
1
School of Mathematics and Statistics, University of Glasgow, University Place, G12 8QQ, Glasgow, UK
2
Department of Mathematics and Statistics, University of Strathclyde, 26 Richmond Street, G1 1XH, Glasgow, UK
a
g.mckay@strath.ac.uk
b
nigel.mottram@glasgow.ac.uk
Received:
28
June
2025
Accepted:
5
October
2025
Published online:
10
November
2025
We examine the influence of an external orienting field on the director orientation and fluid flow of an active nematic liquid crystal confined in a channel, subject to infinite anchoring of the director and no-slip conditions at the channel walls. A mathematical model based on the Ericksen–Leslie dynamic equations for nematic liquid crystals is employed, with an additional active stress tensor accounting for the activity of the fluid. By solving the fully coupled nonlinear equations numerically, we investigate the dynamic response and the steady state of the active nematic when an orienting field is switched on. The dynamic behaviour when an orienting field is switched off is also examined, with our model demonstrating how the activity of the liquid crystal can enhance or hinder the classically observed kickback immediately after switch-off and generate nontrivial steady-state solutions. Specifically, we find that kickback, which can delay relaxation of the system to a steady state, can be made less pronounced, and eventually completely avoided, for contractile agents with a high activity parameter, even with a high magnitude orienting field value.
© The Author(s) 2025
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