From the molecular-cloud- to the embedded-cluster-mass function with a density threshold for star formation
Abstract
The mass function of molecular clouds and clumps is shallower than the mass function of young star clusters, gas-embedded and gas-free alike, as their respective mass function indices are and . We demonstrate that such a difference can arise from different mass-radius relations for the embedded-clusters and the molecular clouds (clumps) hosting them. In particular, the formation of star clusters with a constant mean {\it volume} density in the central regions of molecular clouds of constant mean {\it surface} density steepens the mass function from clouds to embedded-clusters. This model is observationally supported since the mean surface density of molecular clouds is approximately constant, while there is a growing body of evidence, in both Galactic and extragalactic environments, that efficient star-formation requires a hydrogen molecule number density threshold of . In the framework of the same model, the radius distribution steepens from clouds (clumps) to embedded-clusters, which contributes to explaining observed cluster radius distributions. [Abridged]
Cite
@article{arxiv.1101.0813,
title = {From the molecular-cloud- to the embedded-cluster-mass function with a density threshold for star formation},
author = {Genevieve Parmentier},
journal= {arXiv preprint arXiv:1101.0813},
year = {2015}
}
Comments
15 pages, 12 figures, accepted to MNRAS