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Self propelled particle transport in regular arrays of rigid asymmetric obstacles

We report numerical results which show the achievement of net transport of self-propelled particles (SPP) in the presence of a two-dimensional regular array of convex, either symmetric or asymmetric, rigid obstacles. The repulsive inter-particle (soft disks) and particle-obstacle interactions present no alignment rule. We find that SPP present a vortex-type motion around convex symmetric obstacles even in the absence of hydrodynamic effects. Such a motion is not observed for a single SPP, but is a consequence of the collective motion of SPP around the obstacles. An steady particle current is spontaneously established in an array of non-symmetric convex obstacle (which presents no cavity in which particles may be trapped in), and in the absence of an external field. Our results are mainly a consequence of the tendency of the self-propelled particles to attach to solid surfaces.

preprint2014arXivOpen access
Fabricio Q. PotiguarG. A. FariasW. P. Ferreira
cond-mat.stat-mechcond-mat.soft
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Fabricio Q. PotiguarG. A. FariasW. P. Ferreira

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