Observing the launch of an Eddington wind in the luminous Seyfert galaxy PG1211+143

Abstract

The luminous narrow line Seyfert galaxy PG1211+143 was the first non-BAL AGN to reveal a powerful ionized wind, based on early observations with ESA's XMM X-ray Observatory. Subsequent observations, mainly with XMM and the Japanese SUZAKU Observatory, found such winds to be a common feature of luminous AGN. Typical outflow velocities of v $\sim 0.1$c and flow momenta $m v \sim L_{\rm Edd} /c$ are consistent with winds being launched by continuum driving from a disc when the local mass accretion rate is super-Eddington. Here we report the launch of a new, ultra-fast outflow component in PG1211+143, near the end of a 5-week XMM observing campaign, and discuss its origin in an ultra-fast {\it inflow} of similar velocity detected some 3 weeks earlier. We find that the inflow lasted for at least 3 days and delivered some 10 Earth mass of fresh material into the innermost region of the source. While this mass by itself is insufficient to cause a complete inner disc restructuring, we show that it is sufficient to disrupt the X-ray emitting corona of the disc. We conclude that it is this coronal re-arrangement of the inner tens gravitational radii in PG1211+143 that subsequently caused the launch of a new wind.Comment: submitted to MNRA