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Autophoretic flow on a torus

Accepted version
Peer-reviewed

Type

Article

Change log

Authors

Schmieding, LC 
Montenegro-Johnson, TD 

Abstract

Phoretic swimmers provide new avenues to study nonequilibrium statistical physics and are also hailed as a promising technology for bioengineering at the cellular scale. Exact solutions for the locomotion of such swimmers have been restricted so far to spheroidal shapes. In this paper we solve for the flow induced by the canonical nonsimply connected shape, namely an axisymmetric phoretic torus. The analytical solution takes the form of an infinite series solution, which we validate against boundary element computations. For a torus of uniform chemical activity, confinement effects in the hole allow the torus to act as a pump, which we optimize subject to fixed particle surface area. Under the same constraint, we next characterize the fastest swimming Janus torus for a variety of assumptions on the surface chemistry. Perhaps surprisingly, none of the optimal tori occur in the limit where the central hole vanishes.

Description

Keywords

physics.flu-dyn, physics.flu-dyn

Journal Title

Physical Review Fluids

Conference Name

Journal ISSN

2469-990X
2469-990X

Volume Title

2

Publisher

American Physical Society
Sponsorship
European Research Council (682754)
This work was undertaken as part of EPSRC-funded UROP project. E.L. is supported in part by the European Union through a Marie Curie CIG grant and an ERC Consolidator grant. T.D.M.-J. is supported by a Royal Commission for the Exhibition of 1851 Research Fellowship.