Exploring the Diversity of Faint Satellites in the M81 Group

TL;DR

This study confirms and characterizes four ultra-faint satellite galaxies in the M81 group using HST data, revealing their diverse structural properties and emphasizing the importance of expanding satellite surveys beyond the Local Group.

Contribution

It provides detailed HST/ACS observations of four faint M81 satellites, highlighting their diverse features and confirming their properties previously identified from ground-based data.

Findings

Four faint satellites confirmed with HST/ACS data.

Satellites exhibit diverse structural properties, including high concentration and ellipticity.

Low surface brightness features suggest a broader diversity of dwarf galaxies.

Abstract

In the last decade, we have been able to probe further down the galaxy luminosity function than ever before and expand into the regime of ultra-faint dwarfs (UFDs), which are some of the best probes we have of small-scale cosmology and galaxy formation. Digital sky surveys have enabled the discovery and study of these incredibly low-mass, highly dark-matter dominated systems around the Local Group, but it is critical that we expand the satellite census further out to understand if Milky Way and M31 satellites are representative of dwarf populations in the local Universe. Using data from HST/ACS, we present updated characterization of four satellite systems in the M81 group. These systems - D1005+68, D1006+69, DWJ0954+6821, and D1009+68 - were previously discovered using ground-based Subaru HSC data as overdensities in M81's halo and are now confirmed with HST/ACS by this work. These are all faint (M_V >= -7.9) and consistent with old (~13 Gyr), metal-poor ([M/H] < -1.5) populations. Each system possesses relatively unusual features - including one of the most concentrated satellite galaxies with a Sersic index of n ~ 5, one of the most elliptical galaxies outside the Local Group with an e ~ 0.6, and one of the most compact galaxies for its magnitude. Two of the satellites have very low surface brightness, lower than most known galaxies in this absolute magnitude range. This work previews the scientific promise of the upcoming Rubin Observatory and Roman Telescope for illuminating the diversity of UFDs in the Local Volume and beyond.