Origin and evolution of ultra-diffuse galaxies in different environments

Abstract

We study the formation of ultra-diffuse galaxies (UDGs) using the cosmological hydrodynamical simulation TNG50 of the Illustris-TNG suite. We define UDGs as dwarf galaxies in the stellar mass range 7.5 ≤ log (M / M) ≤ 9 that are in the 5\% most extended tail of the simulated mass-size relation. This results in a sample of UDGs with half-mass radii rh 2 \ kpc and surface brightness between 24.5 and 28 \ mag \ arcsec-2, similar to definitions of UDGs in observations. The large cosmological volume in TNG50 allows for a comparison of UDGs properties in different environments, from the field to galaxy clusters with virial mass M200 2 × 1014 ~ M. All UDGs in our sample have dwarf-mass haloes (M200 1011 ~ M ) and show the same environmental trends as normal dwarfs: field UDGs are star-forming and blue while satellite UDGs are typically quiescent and red. The TNG50 simulation predicts UDGs that populate preferentially higher spin haloes and more massive haloes at fixed M compared to non-UDG dwarfs. This applies also to most satellite UDGs, which are actually ``born" UDGs in the field and infall into groups and clusters without significant changes to their size. We find, however, a small subset of satellite UDGs ( 10 \%) with present-day stellar size a factor ≥ 1.5 larger than at infall, confirming that tidal effects, particularly in the lower mass dwarfs, are also a viable formation mechanism for some of these dwarfs, although subdominant in this simulation.