Coarsening Dynamics in the Vicsek Model of Active Matter

Abstract

We study the flocking model introduced by Vicsek in the "coarsening" regime. At standard self-propulsion speeds, we find two distinct growth laws for the coupled density and velocity fields. The characteristic length scale of the density domains grows as L(t) tθ (with θ 0.25), while the velocity length scale grows much faster, viz., Lv(t) tθv (with θv 0.83). The spatial fluctuations in the density and velocity fields are studied by calculating the two-point correlation function and the structure factor, which show deviations from the well-known Porod's law. This is a natural consequence of scattering from irregular morphologies that dynamically arise in the system. At large values of the scaled wave-vector, the scaled structure factors for the density and velocity fields decay with powers -2.6 and -1.52, respectively.