Gravitational Focusing and the Star Cluster Initial Mass Function
Abstract
We discuss the possibility that gravitational focusing, is responsible for the power-law mass function of star clusters . This power law can be produced asymptotically when the mass accretion rate of an object depends upon the mass of the accreting body as . While Bondi-Hoyle-Littleton accretion formally produces this dependence on mass in a uniform medium, realistic environments are much more complicated. However, numerical simulations in SPH allowing for sink formation yield such an asymptotic power-law mass function. We perform pure N-body simulations to isolate the effects of gravity from those of gas physics and to show that clusters naturally result with the power-law mass distribution. We also consider the physical conditions necessary to produce clusters on appropriate timescales. Our results help support the idea that gravitationally-dominated accretion is the most likely mechanism for producing the cluster mass function.
Cite
@article{arxiv.1702.00279,
title = {Gravitational Focusing and the Star Cluster Initial Mass Function},
author = {Aleksandra Kuznetsova and Lee Hartmann and Andreas Burkert},
journal= {arXiv preprint arXiv:1702.00279},
year = {2017}
}
Comments
6 pages; accepted by ApJ