X-ray Observations of Luminous Dusty Quasars at z > 2

Abstract

We present new X-ray observations of luminous heavily dust-reddened quasars (HRQs) selected from infrared sky surveys. HRQs appear to be a dominant population at high redshifts and the highest luminosities, and may be associated with a transitional "blowout" phase of black hole and galaxy co-evolution models. Despite this, their high-energy properties have been poorly known. We use the overall sample of 10 objects with XMM-Newton coverage to study the high-energy properties of HRQs at < L bol > = 1047.5 erg/s and < z >= 2.5. For the seven sources with strong X-ray detections, we perform spectral analyses. These find a median X-ray luminosity of < L 2-10\,keV > = 1045.1 erg/s, comparable to the most powerful X-ray quasars known. The gas column densities are N H=(1-8)× 1022 cm-2, in agreement with the amount of dust extinction observed. The dust to gas ratios are sub-Galactic, but are higher than found in local AGN. The intrinsic X-ray luminosities of HRQs are weak compared to the mid-infrared (L 6μ m) and bolometric luminosities (L bol), in agreement with findings for other luminous quasar samples. For instance, the X-ray to bolometric corrections range from bol≈ 50-3000. The moderate absorption levels and accretion rates close to the Eddington limit (< λ Edd >=1.06) are in agreement with a quasar blowout phase. Indeed, we find that the HRQs lie in the forbidden region of the N H-λ Edd plane, and therefore that radiation pressure feedback on the dusty interstellar medium may be driving a phase of blowout that has been ongoing for a few 105 years. The wider properties, including [OIII] narrow-line region kinematics, broadly agree with this interpretation.