The NH Distribution of Hard X-ray Selected AGN in the NEP Field
Abstract
X-ray surveys are one of the most unbiased methods for detecting Compton Thick (CT; NH ≥ 1024 cm-2) AGN, which are thought to comprise up to 60\% of AGN within z 1.0. These CT AGN are often difficult to detect with current instruments, but the X-ray data within the JWST-North Ecliptic Pole (NEP) Time Domain Field (TDF) present a unique opportunity to study faint and obscured AGN. The NEP contains the deepest NuSTAR survey to date, and Zhao et al. (2024) detected 60 hard X-ray sources from the combined exposure of NuSTAR's Cycle 5 and 6 observations. In this work, we utilize the NuSTAR Cycle 5+6+8+9 data and simultaneous XMM-Newton observations in order to perform the first spectroscopic analysis of the 60-source catalog. We present this analysis and measure the NH distribution of the sample. We measure an observed CT fraction of 0.13-0.04+0.15 down to an observed 8-24 keV flux of 6.0 × 10-14 erg/s/cm2, and we correct our analysis for absorption bias to estimate an underlying CT fraction of 0.32-0.08+0.23. The derived obscuration distribution and CT fraction are consistent with population synthesis models and previous surveys.
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