X-ray observations of dust obscured galaxies in the Chandra Deep Field South

TL;DR

This study uses deep X-ray and multiwavelength data to analyze dust obscured galaxies in the Chandra Deep Field South, finding that a significant fraction of them host heavily obscured or Compton-thick active galactic nuclei, with implications for understanding hidden black hole growth.

Contribution

It combines the deepest X-ray observations with spectral energy distribution fitting to better identify and characterize heavily obscured AGN in DOGs, improving upon previous limited photon statistics.

Findings

Approximately 13-44% of DOGs host Compton-thick AGN.

Most AGN in the sample are highly absorbed, but only a few are confirmed as Compton-thick.

Detection of Fe Kα line supports the Compton-thick classification in some sources.

Abstract

We present the properties of X-ray detected dust obscured galaxies (DOGs) in the Chandra Deep Field South. In recent years, it has been proposed that a significant percentage of the elusive Compton-thick (CT) active galactic nuclei (AGN) could be hidden among DOGs. In a previous work, we presented the properties of X-ray detected DOGs by making use of the deepest X-ray observations available at that time, the 2Ms observations of the Chandra deep fields. In that work, we only found a moderate percentage ($<$ 50%) of CT AGN among the DOGs sample, but we were limited by poor photon statistics. In this paper, we use not only a deeper 6 Ms Chandra survey of the Chandra Deep Field South (CDF-S), but combine these data with the 3 Ms XMM-Newton survey of the CDF-S. We also take advantage of the great coverage of the CDF-S region from the UV to the far-IR to fit the spectral energy distributions (SEDs) of our sources. Out of the 14 AGN composing our sample, 9 are highly absorbed (but only 3 could be CT AGN), whereas 2 look unabsorbed, and the other 3 are only moderately absorbed. In only one of the CT AGN, we detect a strong Fe K$\alpha$ emission line; the source is already classified as a CT AGN with Chandra data in a previous work. For the other two CT candidates, the non-detection of the line could be because of the low number of counts in their X-ray spectra, but their location in the L$_{\rm 2-10\,keV}$/L$_{12\mu m}$ plot supports their CT classification. Although a higher number of CT sources could be hidden among the X-ray undetected DOGs, our results indicate that DOGs could be as well composed of only a fraction of CT AGN plus a number of moderate to highly absorbed AGN, as previously suggested. From our study of the X-ray undetected DOGs in the CDF-S, we estimate a percentage between 13 and 44% of CT AGN among the whole population of DOGs.