MeerKAT

Radio Transients in the Era of Multi-Messenger Astrophysics

Proceedings of the International Astronomical Union Cambridge University Press (CUP) 14:S339 (2017) 207-214

Authors:

GE Anderson, BW Stappers, I Andreoni, M Caleb, D Coppejans, S Corbel, RP Fender, M Giroletti, ML Graham, KV Sokolovsky, PA Woudt

The reverberation signatures of rotating disc winds in active galactic nuclei

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 471:4 (2017) 4798-4811

Authors:

SW Mangham, C Knigge, JH Matthews, KS Long, SA Sim, N Higginbottom

An elevation of 0.1 light-seconds for the optical jet base in an accreting Galactic black hole system

Nature Astronomy Nature Publishing Group 1:12 (2017) 859-864

Authors:

P Gandhi, M Bachetti, VS Dhillon, Robert P Fender, LK Hardy, FA Harrison, SP Littlefair, J Malzac, S Markoff, TR Marsh, Kumar P Mooley, D Stern, JA Tomsick, DJ Walton, P Casella, F Vincentelli, D Altamirano, J Casares, C Ceccobello, PA Charles, C Ferrigno, RI Hynes, C Knigge, E Kuulkers, M Pahari, F Rahoui, DM Russell, AW Shaw

Abstract:

Relativistic plasma jets are observed in many systems that host accreting black holes. According to theory, coiled magnetic fields close to the black hole accelerate and collimate the plasma, leading to a jet being launched 1-3 . Isolating emission from this acceleration and collimation zone is key to measuring its size and understanding jet formation physics. But this is challenging because emission from the jet base cannot easily be disentangled from other accreting components. Here, we show that rapid optical flux variations from an accreting Galactic black-hole binary are delayed with respect to X-rays radiated from close to the black hole by about 0.1 seconds, and that this delayed signal appears together with a brightening radio jet. The origin of these subsecond optical variations has hitherto been controversial 4-8 . Not only does our work strongly support a jet origin for the optical variations but it also sets a characteristic elevation of 10 3 Schwarzschild radii for the main inner optical emission zone above the black hole 9 , constraining both internal shock 10 and magnetohydrodynamic 11 models. Similarities with blazars 12,13 suggest that jet structure and launching physics could potentially be unified under mass-invariant models. Two of the best-studied jetted black-hole binaries show very similar optical lags 8,14,15 , so this size scale may be a defining feature of such systems.

An elevation of 0.1 light-seconds for the optical jet base in an accreting Galactic black hole system

(2017)

Authors:

Poshak Gandhi, Matteo Bachetti, Vik S Dhillon, Robert P Fender, Liam K Hardy, Fiona A Harrison, Stuart P Littlefair, Julien Malzac, Sera Markoff, Tom R Marsh, Kunal Mooley, Daniel Stern, John A Tomsick, Dominic J Walton, Piergiorgio Casella, Federico Vincentelli, Diego Altamirano, Jorge Casares, Chiara Ceccobello, Phil A Charles, Carlo Ferrigno, Robert I Hynes, Christian Knigge, Erik Kuulkers, Mayukh Pahari, Farid Rahoui, David M Russell, Aarran W Shaw

Up and Down the Black Hole Radio/X-Ray Correlation: The 2017 Mini-outbursts from Swift J1753.5−0127

The Astrophysical Journal American Astronomical Society 848:2 (2017) 92

Authors:

RM Plotkin, J Bright, JCA Miller-Jones, AW Shaw, JA Tomsick, TD Russell, G-B Zhang, DM Russell, RP Fender, J Homan, P Atri, F Bernardini, JD Gelfand, F Lewis, TM Cantwell, SH Carey, KJB Grainge, J Hickish, YC Perrott, N Razavi-Ghods, AMM Scaife, PF Scott, DJ Titterington