Is a recently discovered HI cloud near M94 a starless dark matter halo?

Abstract

Observations with the Five-Hundred-Meter Aperture Spherical Telescope have revealed the presence of a marginally-resolved source of 21 cm emission from a location 50' from the M94 galaxy, without a stellar counterpart down to the surface brightness limit of the DESI Imaging Legacy Survey (29.15 mag arcsec-2 in the g band). The system (hereafter Cloud-9) has round column density isocontours and a line width consistent with thermal broadening from gas at T2×104 K. These properties are unlike those of previously detected dark HI clouds and similar to the expected properties of REionization-Limited-HI Cloud (RELHICs), namely, starless dark matter (DM) halos filled with gas in hydrostatic equilibrium and in thermal equilibrium with the cosmic ultraviolet background. At the distance of M94, d4.7 Mpc, we find that Cloud-9 is consistent with being a RELHIC inhabiting a Navarro-Frenk-White (NFW) DM halo of mass, M2005×109 M, and concentration, c NFW13. Although the agreement between the model and observations is good, Cloud-9 appears to be slightly, but systematically, more extended than expected for RELHICs. This may imply either that Cloud-9 is much closer than implied by its recessional velocity, v CL9300 km s-1, or that its halo density profile is flatter than NFW, with a DM mass deficit greater than a factor of 10 at radii r1 kpc. Further observations may aid in constraining these scenarios better and help elucidate whether Cloud-9 is the first ever observed RELHIC, a cornerstone prediction of the model on the smallest scales.