Issue 20, 2020
From the journal:

Soft Matter

Trapping flocking particles with asymmetric obstacles

Raul Martinez,ab   Francisco Alarcon, ORCID logo c   Juan Luis Aragones ORCID logo *a  and  Chantal Valeriani ORCID logo *b  

* Corresponding authors

a Departamento de Física Teórica de la Materia Condensada, Instituto Nicolás Cabrera and Condensed Matter Physics Center (IFIMAC), Universidad Autónoma de Madrid, E-28049 Madrid, Spain
E-mail: juan.aragones@uam.es

b Departamento de Estructura de la Materia, Física Térmica y Electrónica, Facultad de Ciencias Físicas, Grupo Interdisciplinar de Sistemas Complejos, Universidad Complutense de Madrid, 28040 Madrid, Spain
E-mail: cvaleriani@ucm.es

c Departamento de Ingeniería Física, División de Ciencias e Ingenierías, Universidad de Guanajuato, Loma del Bosque 103, 37150 León, Mexico

Abstract

Asymmetric obstacles can be exploited to direct the motion and induce sorting of run-and-tumble particles. In this work, we show that flocking particles which follow the Vicsek model aligning rules experience collective trapping in the presence of a wall of funnels made of chevrons, concentrating at the opposite side of the wall of funnels to run-and-tumble particles. Flocking particles can be completely trapped or exhibit a dynamical trapping behaviour; these two regimes open the door to the design of a system with two perpendicular flows of active particles. This systematic study broadens our understanding of the emergence of collective motion of microorganisms in confined environments and directs the design of new microfluidic devices able to control these collective behaviours.

Graphical abstract: Trapping flocking particles with asymmetric obstacles

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Article information

DOI
https://doi.org/10.1039/C9SM02427A
Article type
Paper
Submitted
09 Dec 2019
Accepted
22 Feb 2020
First published
25 Feb 2020

Soft Matter, 2020,16, 4739-4745

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Trapping flocking particles with asymmetric obstacles

R. Martinez, F. Alarcon, J. L. Aragones and C. Valeriani, Soft Matter, 2020, 16, 4739 DOI: 10.1039/C9SM02427A

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