Pulsars, transients and relativistic astrophysics

Evidence of a Black Hole in the X-Ray Transient GS 1354–64 (=BW Circini)

The Astrophysical Journal American Astronomical Society 613:2 (2004) l133-l136

Authors:

J Casares, C Zurita, T Shahbaz, PA Charles, RP Fender

Long term variability of Cygnus X-1

Astronomy & Astrophysics EDP Sciences 425:3 (2004) 1061-1068

Authors:

T Gleissner, J Wilms, GG Pooley, MA Nowak, K Pottschmidt, S Markoff, S Heinz, M Klein-Wolt, RP Fender, R Staubert

The binary progenitor of Tycho Brahe's 1572 supernova

Nature Springer Nature 431:7012 (2004) 1069-1072

Authors:

Pilar Ruiz-Lapuente, Fernando Comeron, Javier Méndez, Ramon Canal, Stephen J Smartt, Alexei V Filippenko, Robert L Kurucz, Ryan Chornock, Ryan J Foley, Vallery Stanishev, Rodrigo Ibata

GRS 1915+105 AND THE DISC-JET COUPLING IN ACCRETING BLACK HOLE SYSTEMS

Annual Review of Astronomy and Astrophysics Annual Reviews 42:1 (2004) 317-364

Authors:

Rob Fender, Tomaso Belloni

Radio Variability of Radio Quiet and Radio Loud Quasars

ArXiv astro-ph/0409554 (2004)

Authors:

Richard Barvainis, Joseph Lehar, Mark Birkinshaw, Heino Falke, Katherine M Blundell

Abstract:

The majority of quasars are weak in their radio emission, with flux densities comparable to those in the optical, and energies far lower. A small fraction, about 10%, are hundreds to thousands of times stronger in the radio. Conventional wisdom holds that there are two classes of quasars, the radio quiets and radio louds, with a deficit of sources having intermediate power. Are there really two separate populations, and if so, is the physics of the radio emission fundamentally different between them? This paper addresses the second question, through a study of radio variability across the full range of radio power, from quiet to loud. The basic findings are that the root mean square amplitude of variability is independent of radio luminosity or radio-to-optical flux density ratio, and that fractionally large variations can occur on timescales of months or less in both radio quiet and radio loud quasars. Combining this with similarities in other indicators, such as radio spectral index and the presence of VLBI-scale components, leads to the suggestion that the physics of radio emission in the inner regions of all quasars is essentially the same, involving a compact, partially opaque core together with a beamed jet.