A Near-Infrared look at AGN Feedback in Bulgeless Galaxies

TL;DR

This study uses near-infrared spectroscopy to identify active galactic nuclei in bulgeless galaxies, revealing that secular processes can grow supermassive black holes and indicating possible AGN feedback effects.

Contribution

It demonstrates mid-infrared selection as an effective method to detect AGN in bulgeless galaxies and provides evidence of AGN-driven outflows and black hole growth without major mergers.

Findings

69% of the sample show AGN activity

Detected fast outflows in over half of the AGN hosts

Black hole masses align with the M_BH-M_stellar relation

Abstract

While it is generally believed that supermassive black holes (SMBH) lie in most galaxies with bulges, few SMBHs have been confirmed in bulgeless galaxies. Identifying such a population could provide important insights to the BH seed population and secular BH growth. To this end, we obtained near-infrared spectroscopic observations of a sample of low-redshift bulgeless galaxies with mid-infrared colors suggestive of AGN. We find additional evidence of AGN activity (such as coronal lines and broad permitted lines) in 69$\%$ (9/13) of the sample, demonstrating that mid-infrared selection is a powerful tool to detect AGN. More than half of the galaxies with confirmed AGN activity show fast outflows in [O III] in the optical and/or [Si VI] in the NIR, with the latter generally having much faster velocities that are also correlated to their spatial extent. We are also able to obtain virial BH masses for some targets and find they fall within the scatter of other late-type galaxies in the $M_{\rm{BH}}$-$M_{\rm{stellar}}$ relation. The fact that they lack a significant bulge component indicates that secular processes, likely independent of major mergers, grew these BHs to supermassive sizes. Finally, we analyze the rotational gas kinematics and find two notable exceptions: two AGN hosts with outflows that appear to be rotating faster than expected. There is an indication that these two galaxies have stellar masses significantly lower than expected from their dark matter halo masses. This, combined with the observed AGN activity and strong gas outflows may be evidence of the effects of AGN feedback.