Revealing the location and structure of the accretion disk-wind in PDS456

Abstract

We present evidence for the rapid variability of the high velocity iron K-shell absorption in the nearby (z=0.184) quasar PDS456. From a recent long Suzaku observation in 2013 (1Ms effective duration) we find that the the equivalent width of iron K absorption increases by a factor of 5 during the observation, increasing from <105eV within the first 100ks of the observation, towards a maximum depth of 500eV near the end. The implied outflow velocity of 0.25c is consistent with that claimed from earlier (2007, 2011) Suzaku observations. The absorption varies on time-scales as short as 1 week. We show that this variability can be equally well attributed to either (i) an increase in column density, plausibly associated with a clumpy time-variable outflow, or (ii) the decreasing ionization of a smooth homogeneous outflow which is in photo-ionization equilibrium with the local photon field. The variability allows a direct measure of absorber location, which is constrained to within r=200-3500rg of the black hole. Even in the most conservative case the kinetic power of the outflow is 6\% of the Eddington luminosity, with a mass outflow rate in excess of 40\% of the Eddington accretion rate. The wind momentum rate is directly equivalent to the Eddington momentum rate which suggests that the flow may have been accelerated by continuum-scattering during an episode of Eddington-limited accretion.