# HI Spectroscopy of Reverberation-Mapped Active Galactic Nuclei

**Authors:** Justin H. Robinson, Misty C. Bentz, Megan C. Johnson, H\'el\`ene M., Courtois, Benjamin Ou-Yang

arXiv: 1906.07062 · 2019-07-31

## TL;DR

This study uses HI 21 cm spectroscopy to analyze the gas content and its relation to black hole mass in 31 nearby AGN host galaxies, providing new detections and insights into galaxy-baryonic and black hole scaling relations.

## Contribution

First HI detections for 12 galaxies and improved spectral data for the rest, enabling detailed analysis of gas, stellar, and black hole properties in AGN hosts.

## Key findings

- Typical gas-to-stellar mass ratio of 10%
- Weak correlation between gas mass and black hole mass
- Gas fractions vary with galaxy morphology and stellar mass

## Abstract

We present HI 21 cm spectroscopy from the GBT for the host galaxies of 31 nearby AGNs with direct M$_{\textrm{BH}}$ measurements from reverberation mapping. These are the first published HI detections for 12 galaxies, and the spectral quality is generally an improvement over archival data for the remainder of the sample. We present measurements of emission-line fluxes, velocity widths, and recessional velocities from which we derive HI mass, total gas mass, and redshifts. Combining M$_{\textrm{GAS}}$ with constraints on M$_{\textrm{STARS}}$ allows exploration of the baryonic content of these galaxies. We find a typical M$_{\textrm{GAS}}$/M$_{\textrm{STARS}}$ fraction of 10%, with a few reaching $\sim$30-50%. We also examined several relationships between M$_{\textrm{STARS}}$, M$_{\textrm{GAS}}$, M$_{\textrm{BH}}$, baryonic mass, and morphological type. We find a weak preference for galaxies with larger M$_{\textrm{GAS}}$ to host more massive black holes. We also find gas-to-stellar fractions to weakly correlate with later types in unbarred spirals, with an approximately constant fraction for barred spirals. Consistent with previous studies, we find declining M$_{\textrm{GAS}}$/M$_{\textrm{STARS}}$ with increasing M$_{\textrm{STARS}}$, with a slope suggesting the gas reservoirs have been replenished. Finally, we find a clear relationship for M$_{\textrm{BH}}$-M$_{\textrm{BARY}}$ with a similar slope as M$_{\textrm{BH}}$-M$_{\textrm{STARS}}$ reported by Bentz & Manne-Nicholas (2018). The dwarf Seyfert NGC 4395 appears to follow this relationship as well, even though it has a significantly higher gas fraction and smaller M$_{\textrm{BH}}$ than the remainder of our sample.

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/1906.07062/full.md

## References

155 references — full list in the complete paper: https://tomesphere.com/paper/1906.07062/full.md

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Source: https://tomesphere.com/paper/1906.07062