Identifying Compton-thick AGNs in the COSMOS. I. Among X-ray AGNs with Low Photon Counts

TL;DR

This study develops a multiwavelength approach to identify Compton-thick AGNs hidden in low photon count X-ray sources within the COSMOS survey, revealing 18 new CT-AGNs and analyzing diagnostic discrepancies.

Contribution

It introduces a novel multiwavelength methodology for detecting obscured CT-AGNs in low photon count X-ray data, expanding the known population.

Findings

Successfully identified 18 CT-AGNs in the COSMOS sample.

Detected diagnostic discrepancies in four CT-AGNs across methods.

Found no significant host galaxy property differences between CT- and non-CT-AGNs.

Abstract

Compton-thick active galactic nuclei (CT-AGNs), characterized by a significant absorption with column densities of $\mathrm{N_H}\geqslant 1.5\times 10^{24} \ \mathrm{cm}^{-2}$, emit feeble X-ray radiation and are even undetectable by X-ray instruments, making them difficult to identify. X-ray radiation from AGNs is the predominant source of the cosmic X-ray background (CXB). Based on AGN synthesis models for the CXB, the fraction of CT-AGNs should constitute a substantial portion of AGN population, approximately 30\% or more. The fraction of CT-AGNs discovered in the Cosmological Evolution Survey (COSMOS) is significantly lower than this value. This means that many CT-AGNs may be hidden in AGNs that exhibit low photon counts or that have not been detected by X-ray instruments. This work focuses on identifying CT-AGNs hidden in AGNs with low photon counts. Firstly, we selected 440 AGNs with abundant multiwavelength data as our sample. Secondly, we analyzed multiwavelength data, extracting crucial physical parameters required for the CT-AGN diagnosis. Finally, we used multiwavelength approaches to identify CT-AGNs. We have successfully identified 18 CT-AGNs in our sample. Among the CT-AGNs, four AGNs show discrepant results across different diagnostic methods. We discuss the potential reasons behind these diagnostic discrepancies. We explore the impact of estimating [O~III]$\lambda~5007$ luminosities based on [O~II]$\lambda~3727$ luminosities for the CT-AGN diagnosis. We have also found that the properties of host galaxies for CT-AGNs and non-CT-AGNs do not show significant discrepancies.