The role of galactic cold gas in low-level supermassive black hole activity

TL;DR

This study investigates whether cold gas in galaxies influences low-level SMBH activity, finding no strong correlation and suggesting SMBH fueling is likely a localized process rather than galaxy-wide cold gas content.

Contribution

The paper provides the first comprehensive analysis linking galactic cold gas to low-level SMBH activity, demonstrating no significant dependence and highlighting localized fueling mechanisms.

Findings

No significant correlation between HI mass and SMBH activity.

SMBH activity correlates strongly with stellar mass, not cold gas content.

Results are robust against X-ray binary contamination.

Abstract

The nature of the relationship between low-level supermassive black hole (SMBH) activity and galactic cold gas, if any, is currently unclear. Here, we test whether central black holes may feed at higher rates in gas-rich galaxies, probing SMBH activity well below the active regime down to Eddington ratios of ~1e-7. We use a combination of radio data from the ALFALFA survey and from the literature, along with archival X-ray flux measurements from the Chandra X-ray observatory, to investigate this potential relationship. We construct a sample of 129 late-type galaxies, with MB<-18 out to 50 Mpc, that have both HI masses and sensitive X-ray coverage. Of these, 75 host a nuclear X-ray source, a 58% detection fraction. There is a highly significant correlation between nuclear X-ray luminosity LX and galaxy stellar mass Mstar with a slope of 1.7+/-0.3, and a tentative correlation (significant at the 2.8 sigma level) between LX and HI gas mass MHI. However, a joint fit to LX as a function of both Mstar and MHI finds no significant dependence on MHI (slope 0.1+/00.3), and similarly the residuals of LX-LX(Mstar) show no trend with MHI; the apparent correlation between LX and MHI seems to be entirely driven by Mstar. We demonstrate quantitatively that these results are robust against X-ray binary contamination. We conclude that the galaxy-wide cold gas content in these spirals does not strongly correlate with their low-level supermassive black hole activity, and suggest fueling is a localized process.