Flocking with random non-reciprocal interactions

Abstract: Flocking is ubiquitous in nature and emerges due to short or long range alignment interactions among self-propelled agents. Two unfriendly species that anti-align or even interact non-reciprocally show more complex collective phenomena, ranging from parallel and anti-parallel flocking over runand chase behavior to chiral phases. Whether flocking or any of these collective phenomena can survive in the presence of a large number of species with random non-reciprocal interactions remained elusive so far. As a first step here the extreme case of a Vicsek-like model with fully random nonreciprocal interactions between the individual particles is considered. As soon as the alignment bias is of the same order as the random interactions the ordered flocking phase occurs, but deep within this phase, the random non-reciprocal interactions can still support global chiral and oscillating states in which the collective movement direction rotates or oscillates slowly. For short-range interactions, moreover, even without alignment bias self-organized cliques emerge, in which medium size clusters of particles that have predominantly aligning interactions meet accidentally and stay together for macroscopic times. These results may serve as a starting point for the study of multi-species flocking models with non-random but complex non-reciprocal inter-species interactions.