The INTEGRAL/IBIS AGN catalogue I: X-ray absorption properties versus optical classification

TL;DR

This comprehensive study of 272 INTEGRAL-detected AGN explores their X-ray absorption properties, optical classifications, and tests the AGN unification scheme, revealing new classes and the complexity of absorption phenomena.

Contribution

The paper provides the largest INTEGRAL AGN sample to date, analyzing absorption features, optical classifications, and challenging aspects of the AGN unification model with new findings.

Findings

48% of AGN are absorbed, increasing to 80% after bias correction.

Small fraction (~7%) are Compton thick AGN.

Absorption correlates with luminosity, indicating evolution in AGN obscuration.

Abstract

In this work we present the most comprehensive INTEGRAL AGN sample which lists 272 objects. Here we mainly use this sample to study the absorption properties of active galaxies, to probe new AGN classes and to test the AGN unification scheme. We find that half (48%) of the sample is absorbed while the fraction of Compton thick AGN is small (~7%). In line with our previous analysis, we have however shown that when the bias towards heavily absorbed objects which are lost if weak and at large distance is removed, as it is possible in the local Universe, the above fractions increase to become 80% and 17%. We also find that absorption is a function of source luminosity, which implies some evolution in the obscuration properties of AGN. Few peculiar classes, so far poorly studied in the hard X-ray band, have been detected and studied for the first time such as 5 XBONG, 5 type 2 QSOs and 11 LINERs. In terms of optical classification, our sample contains 57% of type 1 and 43% of type 2 AGN; this subdivision is similar to that found in X-rays if unabsorbed versus absorbed objects are considered, suggesting that the match between optical and X-ray classification is overall good. Only a small percentage of sources (12%) does not fulfill the expectation of the unified theory as we find 22 type 1 AGN which are absorbed and 10 type 2 AGN which are unabsorbed. Studying in depth these outliers we found that most of the absorbed type 1 AGN have X-ray spectra characterized by either complex or warm/ionized absorption more likely due to ionized gas located in an accretion disk wind or in the biconical structure associated to the central nucleus, therefore unrelated to the toroidal structure. Among 10 type 2 AGN which resulted to be unabsorbed, at most 3-4% is still eligible to be classified as a "true" type 2 AGN.