The power of infrared AGN selection in mergers: a theoretical study

TL;DR

This theoretical study demonstrates that mid-infrared color selection methods can miss a significant fraction of obscured AGN in galaxy mergers, but optimized criteria improve detection and reveal dual AGN hosts, aiding future observations.

Contribution

The paper introduces a simulation-based analysis of IR AGN selection biases in galaxy mergers, proposing improved color criteria for better completeness and reliability.

Findings

Nearly half of merger-triggered AGN are missed with standard mid-IR cuts.

A lenient W1-W2 > 0.5 cut improves completeness at z < 0.5.

Mid-IR selection effectively identifies dual AGN hosts at small separations.

Abstract

The role of galaxy mergers in fueling active galactic nuclei (AGN) is still debated, owing partly to selection effects inherent to studies of the merger/AGN connection. In particular, luminous AGN are often heavily obscured in late-stage mergers. Mid-infrared (IR) color selection of dust-enshrouded AGN with, e.g., the Wide-field Infrared Survey Explorer (WISE) has uncovered large new populations of obscured AGN. However, this method is sensitive mainly to AGN that dominate emission from the host. To understand how these selection biases affect mid-IR studies of the merger/AGN connection, we simulate the evolution of obscured AGN throughout galaxy mergers. Although mid-IR colors closely trace luminous, obscured AGN, we show that nearly half of merger-triggered AGN are missed with common mid-IR selection criteria, even in late-stage, gas-rich major mergers. At z < 0.5, where merger signatures and dual nuclei can most easily be detected, we find that a more lenient W1-W2 > 0.5 cut greatly improves completeness without significantly decreasing reliability. Extreme nuclear starbursts are briefly able to mimic this AGN signature, but this is largely irrelevant in mergers, where such starbursts are accompanied by AGN. We propose a two-color cut that yields high completeness and reliability even in starbursting systems. Further, we show that mid-IR color selection very effectively identifies dual AGN hosts, with the highest fraction at the smallest separations (< 3 kpc). Thus, many merger hosts of mid-IR AGN should contain unresolved dual AGN; these are ideal targets for high-resolution follow-up, particularly with the James Webb Space Telescope.