Radio and X-ray emission from disc winds in radio-quiet quasars

Abstract

It has been proposed that the radio spectra of radio-quiet quasars are produced by free-free emission in the optically thin part of an accretion disc wind. An important observational constraint on this model is the observed X-ray luminosity. We investigate this constraint using a sample of Palomar-Green (PG) radio-quiet quasars for which XMM-Newton European Photon Imaging Camera (EPIC) spectra are available. Comparing the predicted and measured luminosities for 0.5, 2 and 5keV, we conclude that all of the studied PG quasars require a large hydrogen column density absorber, requiring these quasars to be close to or Compton thick. Such a large column density can be directly excluded for PG0050+124, for which a high-resolution reflection grating spectrometer spectrum exists. Further constraint on the column density for a further 19 out of the 21 studied PG quasars comes from the EPIC spectrum characteristics such as hard X-ray power-law photon index and the equivalent width of the FeKα line; and the small equivalent width of the Civ absorber present in ultraviolet spectra. For two sources, PG1001+054 and PG1411+442, we cannot exclude that they are indeed Compton thick, and the radio and X-ray luminosity are due to a wind originating close to the supermassive black hole. We conclude that for 20 out of 22 PG quasars studied, free-free emission from a wind emanating from the accretion disc cannot mutually explain the observed radio and X-ray luminosity. © 2011 The Authors. Monthly Notices of the Royal Astronomical Society © 2011 RAS.