MeerKAT

A Global Study of the Behaviour of Black Hole X-ray Binary Discs

(2010)

Authors:

Robert Dunn, Rob Fender, Elmar Koerding, Tomaso Belloni, Andrea Merloni

X-ray and radio variability in the low luminosity Active Galactic Nucleus NGC 7213

(2010)

Authors:

ME Bell, T Tzioumis, P Uttley, RP Fender, P Arevalo, E Breedt, I McHardy, DE Calvelo, O Jamil, E Koerding

Early Pulsar Observations with LOFAR

ArXiv 1009.1758 (2010)

Authors:

Jason Hessels, Ben Stappers, Anastasia Alexov, Thijs Coenen, Tom Hassall, Aris Karastergiou, Vlad Kondratiev, Michael Kramer, Joeri van Leeuwen, Jan David Mol, Aris Noutsos, Patrick Weltevrede, the LOFAR Collaboration

Abstract:

This contribution to the proceedings of "A New Golden Age for Radio Astronomy" is simply intended to give some of the highlights from pulsar observations with LOFAR at the time of its official opening: June 12th, 2010. These observations illustrate that, though LOFAR is still under construction and astronomical commissioning, it is already starting to deliver on its promise to revolutionize radio astronomy in the low-frequency regime. These observations also demonstrate how LOFAR has many "next-generation" capabilities, such as wide-field multi-beaming, that will be vital to open a new Golden Age in radio astronomy through the Square Kilometer Array and its precursors.

A decelerating jet observed by the EVN and VLBA in the X-ray transient XTE J1752-223

(2010)

Authors:

J Yang, C Brocksopp, S Corbel, Z Paragi, T Tzioumis, RP Fender

Investigating accretion disk - Radio jet coupling across the stellar mass scale

Proceedings of the International Astronomical Union 6:S275 (2010) 224-232

Authors:

JCA Miller-Jones, GR Sivakoff, D Altamirano, EG Körding, HA Krimm, D Maitra, RA Remillard, DM Russell, V Tudose, V Dhawan, RP Fender, S Heinz, S Markoff, S Migliari, MP Rupen, CL Sarazin

Abstract:

Relationships between the X-ray and radio behavior of black hole X-ray binaries during outbursts have established a fundamental coupling between the accretion disks and radio jets in these systems. I begin by reviewing the prevailing paradigm for this disk-jet coupling, also highlighting what we know about similarities and differences with neutron star and white dwarf binaries. Until recently, this paradigm had not been directly tested with dedicated high-angular resolution radio imaging over entire outbursts. Moreover, such high-resolution monitoring campaigns had not previously targetted outbursts in which the compact object was either a neutron star or a white dwarf. To address this issue, we have embarked on the Jet Acceleration and Collimation Probe Of Transient X-Ray Binaries (JACPOT XRB) project, which aims to use high angular resolution observations to compare disk-jet coupling across the stellar mass scale, with the goal of probing the importance of the depth of the gravitational potential well, the stellar surface and the stellar magnetic field, on jet formation. Our team has recently concluded its first monitoring series, including (E)VLA, VLBA, X-ray, optical, and near-infrared observations of entire outbursts of the black hole candidate H 1743-322, the neutron star system Aquila X-1, and the white dwarf system SS Cyg. Here I present preliminary results from this work, largely confirming the current paradigm, but highlighting some intriguing new behavior, and suggesting a possible difference in the jet formation process between neutron star and black hole systems. © International Astronomical Union 2011.