Igniting galaxy formation in the post-reionization universe

Abstract

It is widely believed that the ultraviolet background produced during the epoch of reionization conspires against the formation of low-mass galaxies. Indeed, this mechanism is often invoked as a solution to the so-called `missing satellites problem.' In this paper we employ FIREbox, a large-volume cosmological simulation based on the Feedback In Realistic Environments (FIRE-2) physics model, to characterize the mechanisms governing galaxy ignition in the post-reionization era. By carefully matching recently-ignited halos (with stellar ages below 100 Myr at the time of selection) to halos that failed to form any stars, we conclude that the presence of cold-dense gas and halo concentration help incite the process of galaxy formation. Concretely, we find that 100\% of recently-ignited halos experience cold-dense gas enhancements relative to their matched failed counterparts. Likewise, approximately 83\% display enhancements in both cold-dense gas and Navarro-Frenk-White concentration (c NFW), while the remaining 17\% exhibit enhanced cold-dense gas content and suppressed c NFW values. Lastly, our simulation suggests that galaxy ignition can occur as late as z=2, potentially allowing us to observationally catch this process `in the act' in the foreseeable future.

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