Large fluctuations and dynamic phase transition in a system of self-propelled particles

Abstract

We study the statistics, in stationary conditions, of the work Wτ done by the active force in different systems of self-propelled particles in a time τ. We show the existence of a critical value Wτ such that fluctuations with Wτ >Wτ correspond to configurations where interaction between particles plays a minor role whereas those with Wτ < Wτ represent states with single particles dragged by clusters. This two-fold behavior is fully mirrored by the probability distribution P(Wτ) of the work, which does not obey the large-deviation principle for Wτ <Wτ . This pattern of behavior can be interpreted as due to a phase transition occurring at the level of fluctuating quantities and an order parameter is correspondingly identified.