http://arxiv.org/abs/2210.14237
Isolated dwarf galaxies nearly always exhibit robust star formation but satellite dwarf galaxies are often devoid of young stars, even in Milky Way-mass groups. Dwarf galaxies thus offer an important laboratory into the environmental processes that cease star formation. We explore the balance of quiescent and star-forming galaxies (quenched fractions) for a sample of ~400 satellite galaxies around 30 Local Volume hosts from the Exploration of Local VolumE Satellites (ELVES) Survey. We present quenched fractions as a function of satellite stellar mass, projected radius, and host halo mass, to conclude that overall, the quenched fractions are similar to the Milky Way, dropping below 50\% at satellite M*~10^8 Msun. There is a ~10% difference in quenched fraction for satellites within and outside of ~R_vir/2 at fixed satellite mass. Finally, the satellite mass at which quenching grows inefficient grows steadily with host halo mass. Through comparison with the semi-analytic modeling code SatGen, we are also able to infer average quenching times as a function of satellite mass in host halo-mass bins. There is a gradual increase in quenching time with satellite stellar mass rather than the abrupt change from rapid to slow quenching that has been inferred for the Milky Way. We also generally infer longer average quenching times than recent hydrodynamical simulations. Our results vindicate models that suggest a wide range of quenching times are possible via ram pressure stripping, depending on the clumpiness of the circumgalactic medium, the orbits of the satellites, and the degree of earlier preprocessing.
J. Greene, S. Danieli, S. Carlsten, et. al.
Thu, 27 Oct 22
5/55
Comments: 18 pages, 12 figures, submitted to ApJ, comments welcome
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