The X-ray View of Merger-Induced AGN Activity at Low Redshift

TL;DR

This study investigates whether galaxy mergers at low redshift trigger observable X-ray AGN activity, finding no significant X-ray excess but a notable increase in mid-IR AGN, implying heavy obscuration of AGN during mergers.

Contribution

It provides the first systematic comparison of X-ray AGN prevalence in post-merger galaxies versus controls, highlighting obscured AGN activity not detectable in X-ray surveys.

Findings

No significant X-ray AGN excess in post-mergers (p=0.26).

Significant increase in mid-IR AGN in post-mergers (~17 times).

Post-mergers likely host heavily obscured, luminous AGN.

Abstract

Galaxy mergers are predicted to trigger accretion onto the central supermassive black holes, with the highest rates occurring during final coalescence. Previously, we have shown elevated rates of both optical and mid-IR selected active galactic nuclei (AGN) in post-mergers, but to date the prevalence of X-ray AGN has not been examined in the same systematic way. We present XMM-Newton data of 43 post-merger galaxies selected from the Sloan Digital Sky Survey along with 430 non-interacting control galaxies matched in stellar mass, redshift, and environment in order to test for an excess of hard X-ray (2-10 keV) emission in post-mergers attributable to triggered AGN. We find 2 X-ray detections in the post-mergers (4.7^{+9.3}_{-3.8}%) and 9 in the controls (2.1^{+1.5}_{-1.0}%), an excess of 2.22^{+4.44}_{-2.22}, where the confidence intervals are 90%. While we therefore do not find statistically significant evidence for an X-ray AGN excess in post-mergers (p = 0.26), we find a factor of ~17 excess of mid-IR AGN in our sample, consistent with past work and inconsistent with the observed X-ray excess (p = 2.7 x 10^{-4}). Dominant, luminous AGN are therefore more frequent in post-mergers, and the lack of a comparable excess of 2-10 keV X-ray AGN suggests that AGN in post-mergers are more likely to be heavily obscured. Our results are consistent with the post-merger stage being characterised by enhanced AGN fueling, heavy AGN obscuration, and more intrinsically luminous AGN, in line with theoretical predictions.