Professor Rob Fender

VLBA Observations of the Superluminal Radio Jet from Cygnus X-1 in the Low/Hard X-Ray State

Chapter in Microquasars, Springer Nature (2001) 121-122

Authors:

Chris De La Force, Ralph Spencer, A Stirling, M Garrett, R Fender

Coupling of the X-ray and radio emission in the black hole candidate and compact jet source GX 339-4

Astronomy and Astrophysics 359:1 (2000) 251-268

Authors:

S Corbel, RP Fender, AK Tzioumis, M Nowak, V McIntyre, P Durouchoux, R Sood

Abstract:

We report the results of a long-term campaign of radio, soft- and hard- X-ray observations of the galactic black hole candidate GX 339-4. In the Low-Hard X-ray state the system displays a strong 3-way linear correlation between soft-and hard-X-rays and radio emission, implying a coupling between the Comptonising corona and a radio-emitting compact jet. In this state the radio emission is linearly polarised at a level of around 2%, with an almost constant polarisation angle, indicative of a favored axis in this system probably related to the compact jet and/or black hole spin axis. In the Off X-ray state the radio emission declines with the X-ray emission to below detectable levels, suggesting that it is simply a lower-luminosity version of the Low-Hard state. In the High-Soft state both the hard-X-ray and radio emission are suppressed. We also note that the transitions from the Low-Hard state to the High-Soft state (and the reverse) are possibly associated with discrete ejection(s) of expanding relativistic plasma.

Disk mass accretion rate and infrared flares in GRS 1915+105

Astronomy and Astrophysics 358:2 (2000)

Authors:

T Belloni, S Migliari, RP Fender

Abstract:

We have analyzed in detail a set of Rossi X-ray Timing Explorer (RXTE) observations of the galactic microquasar GRS 1915+105 corresponding to times when quasi-periodic oscillations in the infrared have been reported. From time-resolved spectral analysis, we have estimated the mass accretion rate through the (variable) inner edge of the accretion disk. We compare this accretion rate to an estimate of the mass/energy outflow rate in the jet. We discuss the possible implications of these results in terms of disk-instability and jet ejection, and in particular note an apparent anti-correlation between the accretion and ejection rates, implying that the gas expelled in the jet must leave the accretion disk before reaching its innermost radius.

Resolving the radio nebula around β Lyrae

Astronomy and Astrophysics 358:1 (2000) 229-232

Authors:

G Umana, PFL Maxted, C Trigilio, RP Fender, F Leone, SK Yerli

Abstract:

In this paper we present high spatial resolution radio images of the puzzling binary system β Lyrae obtained with MERLIN at 5 GHz. We find a nebula surrounding the binary with a brightness temperature of (11000 ± 700) K approximately 40 AU across. This definitively confirms the thermal origin of the radio emission, which is consistent with emission from the wind of the B6-8 II component (mass loss of order of 10-7 M⊙yr-1), ionized by the radiation field of the hotter companion. This nebula, surrounding the binary, is the proof that β Lyrae evolved in a non-conservative way, i. e. not all the mass lost by the primary is accretted by the secondary, and present measurements indicate that almost 0.015 M⊙ had been lost from the system since the onset of the Roche lobe overflow phase. Moreover, the nebula is aligned with the jet-like structures inferred from recent optical measurements, indicating a possible connection among them.

Light Curves and Radio Structure of the 1999 September Transient Event in V4641 Sagittarii (=XTE J1819–254=SAX J1819.3–2525)

The Astrophysical Journal American Astronomical Society 544:2 (2000) 977-992

Authors:

RM Hjellming, MP Rupen, RW Hunstead, D Campbell-Wilson, AJ Mioduszewski, BM Gaensler, DA Smith, RJ Sault, RP Fender, RE Spencer, CJ de la Force, AMS Richards, ST Garrington, SA Trushkin, FD Ghigo, EB Waltman, M McCollough