From filaments to clumps: filament properties with synthetic Herschel observations

Abstract

Systematic surveys of filaments have been conducted to study their properties and their relationship to the process of star formation. In this paper, we use synthetic Herschel observations derived from 3D numerical simulations to compute column density maps, then use the FILFINDER algorithm to identify filaments. We obtain a large sample of 8,832 filaments that we further decompose into 110,193 branches. We characterize the physical properties of these filamentary structures and explore their correlations with embedded clumps. Furthermore, we directly compare our synthetic results with an observational catalogue of 32,059 filaments from the Herschel Infrared Galactic Plane Survey (Hi-GAL). Our results show that filaments are central to the star formation process, hosting 94\% of clumps from synthetic observations and 93\% of stars from our 3D numerical simulation. Filaments that host clumps have higher median column densities (1.1×1021\,cm-2) than those without (3.8×1020\,cm-2). We find power-law distributions for our synthetic filament masses and lengths, with power-law indexes of α M=-0.86 and α L = -1.71, respectively. We also find that the relation between the density of filaments and the background density is Nfs Nbs0.78. The measured properties of the filaments from the 2D synthetic observations are qualitatively consistent with those of the filaments from the Hi-GAL survey.