Issue 12, 2022

Hydrodynamic and geometric effects in the sedimentation of model run-and-tumble microswimmers

Abstract

The sedimentation process in an active suspension is the result of the competition between gravity and the autonomous motion of particles. We carry out simulations of run-and-tumble squirmers that move in a fluid medium, focusing on the dependence of the non-equilibrium steady state on the swimming properties. We find that for large enough activity, the density profiles are no longer simple exponentials; we recover the numerical results through the introduction of a local effective temperature, suggesting that the breakdown of the Perrin-like exponential form is a collective effect due to fluid-mediated dynamic correlations among particles. We show that analogous concepts can also fit the case of active non-motile particles, for which we report the first study of this kind. Moreover, we provide evidence of scenarios where the solvent hydrodynamics induces non-local effects which require the full three-dimensional dynamics to be taken into account in order to understand sedimentation in active suspensions. Finally, analyzing the statistics of the orientations of microswimmers, the emergence of a height-dependent polar order in the system is discussed.

Graphical abstract: Hydrodynamic and geometric effects in the sedimentation of model run-and-tumble microswimmers

Article information

Article type
Paper
Submitted
08 Nov 2021
Accepted
15 Feb 2022
First published
16 Feb 2022
This article is Open Access
Creative Commons BY license

Soft Matter, 2022,18, 2407-2413

Hydrodynamic and geometric effects in the sedimentation of model run-and-tumble microswimmers

A. Scagliarini and I. Pagonabarraga, Soft Matter, 2022, 18, 2407 DOI: 10.1039/D1SM01594J

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