Hydrodynamically Induced Aggregation in Two-Dimensional Active Systems

Abstract

We investigate a system of co-oriented active particles interacting only via hydrodynamic and steric interactions. We offer a new method of calculating the flow created by any active particle in a 2D fluid, focusing on the dynamics of flow fields with a high-order spatial decay, which we analyze using a geometric Hamiltonian. We show that when orientational degrees of freedom are quenched, and the flow has a single, odd power decay, such many-particle systems lead to stable, fractal-like aggregation, with the only exceptions being the force dipole. We discuss how our results can easily be generalized to more complicated force distributions and to other effective two-dimensional systems.

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