HI angular momentum mass relation

Abstract

We study the relationship between the H i specific angular momentum (j g) and the H i mass (M g) for a sample of galaxies with well measured H i rotation curves. We find that the relation is well described by an unbroken power law α over the entire mass range (107-1010.5 M), with α = 0.89 0.05 (scatter 0.18 dex). This is in reasonable agreement with models which assume that evolutionary processes maintain H i disks in a marginally stable state. The slope we observe is also significantly different from both the j M2/3 relation expected for dark matter haloes from tidal torquing models and the observed slope of the specific angular momentum-mass relation for the stellar component of disk galaxies. Our sample includes two H i-bearing ultra diffuse galaxies, and we find that their angular momentum follows the same relation as other galaxies. The only discrepant galaxies in our sample are early-type galaxies with large rotating H i disks which are found to have significantly higher angular momentum than expected from the power law relation. The H i disks of all these early-type galaxies are misaligned or counter-rotating with respect to the stellar disks, consistent with the gas being recently accreted. We speculate that late stage wet mergers, as well as cold flows play a dominant role in determining the kinematics of the baryonic component of galaxies as suggested by recent numerical simulations.