Baryonic Masses and Properties of Gaseous Satellite Galaxies

TL;DR

This study analyzes the properties and abundance of gaseous satellite dwarf galaxies around late-type hosts within 30 Mpc, revealing low satellite counts and environmental quenching effects consistent with local group observations.

Contribution

First comprehensive HI survey of gaseous dwarf satellites around diverse host galaxies within 30 Mpc, providing new insights into satellite abundance and environmental effects.

Findings

Gaseous satellites have lower gas-to-stellar mass ratios than previous samples.

Satellite abundance increases with host mass, aligning with local group data.

Environmental quenching is effective in Milky Way-mass hosts, causing gas depletion.

Abstract

We present a sample of 127 gas-bearing dwarf galaxies around 56 late-type host galaxies within 30 Mpc using 21-cm HI data from the WALLABY, MHONGOOSE, and ALFALFA surveys. We characterize the environment of each dwarf galaxy based on its host galaxy halo and derive optical properties using the DESI Legacy Surveys for 110. The gaseous satellites span $\log (M_{\rm HI}/M_{\odot}) = 5.7-9.7$ and $\log (M_{\star}/M_{\odot}) = 5.6-10.0$, with a median velocity line-width of $W_{50}=37$ km/s, comparable to the Local Group gaseous dwarf galaxies. We assess the HI mass sensitivity of the data by injecting model dwarf galaxies and find $M_{\rm HI,lim} = 10^{6.7} M_{\odot}$ for WALLABY and $M_{\rm HI,lim} = 10^{5.4} M_{\odot}$ for MHONGOOSE at 10 Mpc. With this sensitivity, our sample shows lower average gas-to-stellar mass ratios ($M_{\rm HI}/M_{\star}$) than literature dwarf galaxy samples. The abundance of gaseous satellites per host is low and increases with host mass: $0-2$ for isolated dwarf galaxy hosts and $0-5$ for Milky Way-mass spiral hosts. These numbers are consistent with the Milky Way, M31, and star-forming satellite abundances from recent deep optical surveys. The inferred quenched fractions and gas-depleted satellites indicate that environmental quenching is effective in Milky Way-mass hosts, likely driven by gas stripping processes.