On R-W1 as A Diagnostic to Discover Obscured Active Galactic Nuclei in Wide-Area X-ray Surveys

Abstract

Capitalizing on the all-sky coverage of WISE, and the 35\% and 50\% sky coverage from SDSS and Pan-STARRS, respectively, we explore the efficacy of mR (optical) - m3.4 μ m (mid-infrared), hereafter R-W1, as a color diagnostic to identify obscured supermassive black hole accretion in wide-area X-ray surveys. We use the 16.5 deg2 Stripe 82 X-ray survey data as a test-bed to compare R-W1 with R-K, an oft-used obscured AGN selection criterion, and examine where different classes of objects lie in this parameter space. Most stars follow a well-defined path in R-K vs. R-W1 space. We demonstrate that optically normal galaxies hosting X-ray AGN at redshifts 0.5<z<1 can be recovered with an R-W1>4 color-cut, while they typically are not selected as AGN based on their W1-W2 colors. Additionally, different observed X-ray luminosity bins favor different regions in R-W1 parameter space: moderate luminosity AGN (1043 erg s-1 < L 0.5-10 keV < 1044 erg s-1) tend to have red colors while the highest luminosity AGN (L 0.5-10 keV > 1045 erg s-1) have bluer colors; higher spectroscopic completeness of the Stripe 82X sample is needed to determine whether this is a selection effect or an intrinsic property. Finally, we parameterize X-ray obscuration of Stripe 82X AGN by calculating their hardness ratios (HRs) and find no clear trends between HR and optical reddening. Our results will help inform best-effort practices in following-up obscured AGN candidates in current and future wide-area, shallow X-ray surveys, including the all-sky eROSITA mission.