Fragmentation in Population III Galaxies formed through Ionizing Radiation [GA]

http://arxiv.org/abs/1907.11724


Population III stars forming in minihalos tend to be relatively inefficient, with each minihalo hosting one or a small number of stars which are more massive than local stars but still challenging to observe directly at high redshift. Here we explore a possible mechanisms for the generation of larger clusters of such stars: a nearby ionizing source which ionizes a late forming halo, delaying its collapse until the halo is sufficiently large that the core can self-shield and suffer runaway collapse. We use simulations with a simple but accurate model for the radiative ionizing flux and confirm the basic predictions of previous work: higher ionizing fluxes can delay the collapse to lower redshifts and higher masses, up to an order of magnitude above the atomic cooling limit. In a limited number of runs we also examine the fragmentation of the cores at even higher resolution, using both simple estimates and sink particles to show that the number of fragments is generally small, at most a handful, and that the mass accretion rate on the fragments is of order $10^{-3}$ M$\odot$ yr$^{-1}$. This rate is sufficiently high that the descent on the main sequence (and hence the suppression of accretion) is delayed until the stellar masses are of order $100-1000$ M$\odot$, but not high enough to produce direct collapse black holes of mass $\sim 10^5$ M$_{\odot}$. The resulting clusters are larger than those produced in minihalos, but are still likely to fall short of being easily detectable in JWST blind fields.

Read this paper on arXiv…

M. Kulkarni, E. Visbal and G. Bryan
Tue, 30 Jul 19
63/79

Comments: 12 pages, 6 figures, accepted for publication in ApJ