Universal Scaling Relations in Scale-Free Structure Formation

Abstract

A large number of astronomical phenomena exhibit remarkably similar scaling relations. The most well-known of these is the mass distribution d N/d M M-2 which (to first order) describes stars, protostellar cores, clumps, giant molecular clouds, star clusters and even dark matter halos. In this paper we propose that this ubiquity is not a coincidence and that it is the generic result of scale-free structure formation where the different scales are uncorrelated. We show that all such systems produce a mass function proportional to M-2 and a column density distribution with a power law tail of d A/d -1. In the case where structure formation is controlled by gravity the two-point correlation becomes 2D R-1. Furthermore, structures formed by such processes (e.g. young star clusters, DM halos) tend to a R-3 density profile. We compare these predictions with observations, analytical fragmentation cascade models, semi-analytical models of gravito-turbulent fragmentation and detailed "full physics" hydrodynamical simulations. We find that these power-laws are good first order descriptions in all cases.