X-ray spectroscopic survey of highly-accreting AGN

Abstract

Improving our understanding of the nuclear properties of high-Eddington ratio (λEdd) active galactic nuclei (AGN) is necessary since the bulk of X-ray spectroscopic studies have been focused on low-Eddington AGN. We present here the X-ray spectral analysis of 14 radio-quiet, λEdd1 AGN at 0.4≤ z ≤ 0.75, observed with XMM-Newton. Optical/UV data from simultaneous Optical Monitor observations have been also considered. These AGN have been selected to have relatively high values of black hole mass (MBH108-8.5M) and bolometric luminosity (Lbol 1046 erg s-1), in order to complement previous studies of high-Eddington AGN at lower MBH and Lbol. We studied the relation between λEdd and other key X-ray spectral parameters, such as the photon index of the power-law continuum , the X-ray bolometric correction kbol,X and αox. Despite the homogeneous optical and SMBH accretion properties, the X-ray properties of these high-Eddington AGN are quite heterogeneous. We measured values of comprised between 1.3 and 2.5, at odds with the expectations based on previously reported -λEdd relations, by which ≥2 would be an ubiquitous hallmark of AGN with λEdd1. We found that 30\% of the sources are X-ray weak, with an X-ray emission about a factor of 10-80 fainter than that of typical AGN at similar UV luminosities. The X-ray weakness seems to be intrinsic and not due to intervening obscuration. This may indicate that high-Eddington AGN commonly undergo periods of intrinsic X-ray weakness. Furthermore, results from a follow-up monitoring with Swift of one of these X-ray weak AGN suggest that these periods can last for several years.

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