Issue 6, 2025
From the journal:

Soft Matter

Collective motion of energy depot active disks

Juan Pablo Miranda, ORCID logo *ab   Demian Levis ORCID logo *cd  and  Chantal Valeriani ORCID logo ab  

* Corresponding authors

a Departamento de Estructura de la Materia, Física Térmica y Electrónica, Universidad Complutense de Madrid, Madrid 28040, Spain
E-mail: juanpami@ucm.es

b GISC - Grupo Interdisciplinar de Sistemas Complejos, Madrid 28040, Spain

c Computing and Understanding Collective Action (CUCA) Lab, Condensed Matter Physics Department, Universitat de Barcelona, Marti i Franquès 1, Barcelona 08028, Spain
E-mail: levis@ub.edu

d University of Barcelona Institute of Complex Systems (UBICS), Martí i Franquès 1, Barcelona E08028, Spain

Abstract

In the present work we have studied collectives of active disks with an energy depot, moving in the two-dimensional plane and interacting via an excluded volume. The energy depot accounts for the extraction of energy taking place at the level of each particle in order to perform self-propulsion, included in an underdamped Langevin dynamics. We show that this model undergoes a flocking transition, exhibiting some of the key features of the Vicsek model, namely, band formation and giant number fluctuations. These bands, either single or multiple, are dense and very strongly polarised propagating structures. Large density bands disappear as the activity is further increased, eventually reaching a homogeneous polar state. We unravel an effective alignment interaction at the level of two-particle collisions that can be controlled by activity and gives rise to flocking at large scales.

Graphical abstract: Collective motion of energy depot active disks

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Article information

DOI
https://doi.org/10.1039/D4SM00785A
Article type
Paper
Submitted
26 Jun 2024
Accepted
18 Nov 2024
First published
18 Nov 2024
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2025,21, 1045-1053

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Collective motion of energy depot active disks

J. P. Miranda, D. Levis and C. Valeriani, Soft Matter, 2025, 21, 1045 DOI: 10.1039/D4SM00785A

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