The WISSH quasars project VII. The impact of extreme radiative field in the accretion disk and X-ray corona interplay

Abstract

Hyperluminous quasars (L bol 1047 erg s-1) are ideal laboratories to study the interaction and impact of extreme radiative field and the most powerful winds in the AGN nuclear regions. They typically exhibit low coronal X-ray luminosity (L X) compared to the UV and MIR radiative outputs (L UV and L MIR) with a non-negligible fraction of them reporting even 1 dex weaker L X compared to the prediction of the well established L X-L UV and L X-L MIR relations followed by the bulk of the AGN population. We report in our WISE/SDSS-selected Hyperluminous (WISSH) z=2-4 broad-line quasar sample, the discovery of a dependence between the intrinsic 2-10 keV luminosity (L 2-10) and the blueshifted velocity of the CIV emission line (v CIV) indicative of accretion disc winds. In particular, sources with fastest winds (v CIV 3000~ km s-1) possess 0.5-1 dex lower L 2-10 than sources with negligible v CIV. No similar dependence is found on L UV, L MIR, L bol, photon index and absorption column density. We interpret these findings in the context of accretion disc wind models. Both magnetohydrodynamic and line-driven models can qualitatively explain the reported relations as a consequence of X-ray shielding from the inner wind regions. In case of line-driven winds, the launch of fast winds is favoured by a reduced X-ray emission, and we speculate that these winds may play a role in directly limiting the coronal hard X-ray production.