Probing properties of nearly two-hundred new active galactic nuclei

Abstract

We present a comprehensive analysis of the X-ray spectral properties of 198 newly identified active galactic nuclei (AGNs), leveraging archival data from the Chandra X-ray Observatory. All these AGNs exhibit a powerlaw spectral signature spanning a broad energy range of 0.5-7.0 keV, characterized by the photon index () values ranging from 0.3+0.16-0.14 to 2.54+0.14-0.13. Particularly, 76 of these AGNs display discernible levels of intrinsic absorption, after considering the Galactic absorption. The column densities associated with this local absorption (n H local) are within a range of 1019 - 1022\ cm-2. We study the cosmological evolution of AGNs using the variation of n H local and with their estimated redshift. The intrinsic spectral signature did not reveal any significant cosmological evolution; however, a deficit of hard sources at high redshift is possibly intrinsic. Our sample covers several decades of broadband intrinsic luminosity (L B intr) ranging from 4.59+0.41-0.41 × 1042 to 2.4+0.12-0.12 × 1046\, erg~s-1 with peak at 1.84 redshift. We also investigate the hardness-luminosity diagram (HLD) to further probe the AGNs. We conduct a sanity check by applying our findings to known AGNs, and the results are consistent with our observations.