Relevance of Metric-Free Interactions in Flocking Phenomena
arXiv:1007.1783 · doi:10.1103/PhysRevLett.105.168103
Abstract
We show that the collective properties of self-propelled particles aligning with their "topological" (Voronoi) neighbors are qualitatively different from those of usual models where metric interaction ranges are used. This relevance of metric-free interactions, shown in a minimal setting, indicate that realistic models for the cohesive motion of cells, bird flocks, and fish schools may have to incorporate them, as suggested by recent observations.
To appear on Physical Review Letters