Hintze Centre for Astrophysical Surveys

The radio luminosity of persistent X‐ray binaries

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 317:1 (2000) 1-8

Authors:

RP Fender, MA Hendry

The infrared counterpart of the Z source GX 5–1

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 315:4 (2000) l57-l60

Authors:

PG Jonker, RP Fender, NC Hambly, M Van Der Klis

ASTRONOMY: A New Source of Gamma Rays.

Science (New York, N.Y.) 288:5475 (2000) 2326

Abstract:

Relativistic outflows or "jets" are collimated streams of high-energy electrons that emit synchrotron radiation at radio wavelengths and have bulk velocities that are a substantial fraction of the speed of light. They trace the outflow of enormous amounts of energy and matter from a central supermassive black hole in distant radio galaxies. As Fender explains in this Perspective, much smaller, more local sources may also produce such jets. Data presented by Paredes et al. point toward association of one such source, a relatively faint x-ray binary, with a gamma-ray source. This and similar pairs may contribute substantially to the production of high-energy particles and photons within our galaxy.

Resolving the radio nebula around beta Lyrae

ArXiv astro-ph/0004306 (2000)

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 beta Lyrae obtained with MERLIN at 5 GHz. We find a nebula surrounding the binary with a brightness temperature of 11000+-700K approximately 40AU across. This definitively confirms the thermal origin of the radio emission, which is consistent with emission from the wind of the B6-8II component (mass loss of order of 10^-7 Msun per year), ionized by the radiation field of the hotter companion. This nebula, surrounding the binary, is the proof that beta Layrae 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 0.015Msun 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.

Identification of a Likely Radio Counterpart to the Rapid Burster

The Astrophysical Journal American Astronomical Society 532:2 (2000) 1181-1191

Authors:

Christopher B Moore, Robert E Rutledge, Derek W Fox, Robert A Guerriero, Walter HG Lewin, Robert Fender, Jan van Paradijs