posted on 2018-12-07, 15:12authored byJoost de Graaf, Henri Menke, Arnold J.T.M. Mathijssen, Marc Fabritius, Christian Holm, Tyler Shendruk
A plethora of active matter models exist that describe the behavior of self-propelled particles (or
swimmers), both with and without hydrodynamics. However, there are few studies that consider
shape-anisotropic swimmers and include hydrodynamic interactions. Here, we introduce a simple
method to simulate self-propelled colloids interacting hydrodynamically in a viscous medium using
the lattice-Boltzmann technique. Our model is based on raspberry-type viscous coupling and a
force/counter-force formalism, which ensures that the system is force free. We consider several
anisotropic shapes and characterize their hydrodynamic multipolar flow field. We demonstrate that
shape-anisotropy can lead to the presence of a strong quadrupole and octupole moments, in addition to
the principle dipole moment. The ability to simulate and characterize these higher-order moments will
prove crucial for understanding the behavior of model swimmers in confining geometries
Funding
J.d.G. acknowledges financial support by a NWO Rubicon
Grant (No. #680501210). J.d.G. and C.H. thank the DFG
Reuse of AIP Publishing content is subject to the terms: https://publishing.aip.org/authors/rights-and-permissions. Downloaded to IP: 163.1.246.64 On: Fri, 08 Apr
2016 08:46:55
134106-9 de Graaf et al. J. Chem. Phys. 144, 134106 (2016)
for funding through the SPP 1726 “Microswimmers—From
Single Particle Motion to Collective Behavior.” A.J.T.M.M.
and T.N.S. acknowledge financial support from an ERC
Advanced Grant MiCE (No. 291234). T.N.S. thanks EMBO
for funding through (No. ALTF181-2013)
History
School
Science
Department
Mathematical Sciences
Published in
The Journal of Chemical Physics
Volume
144
Issue
13
Pages
134106 - 134106
Citation
DE GRAAF, J. ... et al.,2016. Lattice-Boltzmann hydrodynamics of anisotropic active matter. The Journal of Chemical Physics, 144: 134106.
This work is made available according to the conditions of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) licence. Full details of this licence are available at: https://creativecommons.org/licenses/by-nc-nd/4.0/
Acceptance date
2016-04-01
Publication date
2016-04-07
Notes
This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. The following article appeared in DE GRAAF, J. ... et al.,2016. Lattice-Boltzmann hydrodynamics of anisotropic active matter. The Journal of Chemical Physics, 144: 134106 and may be found at https://doi.org/10.1063/1.4944962.