Systematic Broad-band X-ray Study of super-Eddington Accretion onto Supermassive Black Holes. I. X-ray Continuum

Abstract

We present the first systematic broad-band X-ray study of super-Eddington accretion onto SMBHs with simultaneous NuSTAR and XMM-Newton or Swift/XRT observations of a sample of 8 super-Eddington accreting AGN with Eddington ratio 1<λ Edd<426. We find that the SEAMBHs show a steep primary continuum slope as expected for sources accreting in the super Eddington regime, mostly dominated by relativistic reflection. The Iron Kα emission lines of the sources of our sample show relativistic broadening. In addition the equivalent widths of the narrow components of the Iron Kα lines follow the 'X-ray Baldwin' effect, also known as the 'Iwasawa-Taniguchi' effect. We found a statistically significant correlation between the photon-index of the primary power-law and the Eddington ratio, consistent with past studies. Moreover, as expected for super-Eddington sources, the median value of the reflection fraction of the sources we analysed is a factor 2 higher than the median reflection fraction value of the type\,1 AGN from the BASS sample. We are able to estimate the coronal temperature for three sources of our sample: Mrk\,382 (kTe=7.8\,keV), PG\,0026+129 (kTe=39\,keV) and IRAS\,04416+1215 (kTe=3\,keV). Looking at the position of the SEAMBHs sources of our sample in the compactness-temperature diagram it appears that in super-Eddington AGN, as for lower Eddington ratio AGN, the X-ray corona is controlled by pair production and annihilation.

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