MeerKAT

A tool to separate optical/infrared disc and jet emission in X-ray transient outbursts: the colour-magnitude diagrams of XTE J1550-564

(2011)

Authors:

DM Russell, D Maitra, RJH Dunn, RP Fender

Testing the jet quenching paradigm with an ultradeep observation of a steadily soft state black hole

(2011)

Authors:

DM Russell, JCA Miller-Jones, TJ Maccarone, YJ Yang, RP Fender, F Lewis

NO CONFIRMED NEW ISOLATED NEUTRON STARS IN THE SDSS DATA RELEASE 4**Based on observations obtained at the Gemini Observatory, which is operated by the Association of Universities for Research in Astronomy (AURA) under a cooperative agreement with the National Science Foundation on behalf of the Gemini partnership: the National Science Foundation (United States), the Science and Technology Facilities Council (United Kingdom), the National Research Council (Canada), CONICYT (Chile), the Australian Research Council (Australia), CNPq (Brazil), and CONICET (Argentina). Also includes observations obtained with the Apache Point Observatory 3.5 m telescope, which is owned and operated by the Astrophysical Research Consortium.

The Astronomical Journal American Astronomical Society 141:6 (2011) 176

Authors:

Marcel A Agüeros, Bettina Posselt, Scott F Anderson, Philip Rosenfield, Frank Haberl, Lee Homer, Bruce Margon, Emily R Newsom, Wolfgang Voges

Observation of H2O in a strongly lensed Herschel -ATLAS source at z = 2.3

Astronomy and Astrophysics 530 (2011)

Authors:

A Omont, R Neri, P Cox, R Lupu, M Guélin, P Van Der Werf, A Weiß, R Ivison, M Negrello, L Leeuw, M Lehnert, I Smail, A Verma, AJ Baker, A Beelen, JE Aguirre, M Baes, F Bertoldi, DL Clements, A Cooray, K Coppin, H Dannerbauer, G De Zotti, S Dye, N Fiolet, D Frayer, R Gavazzi, D Hughes, M Jarvis, M Krips, MJ Michałowski, EJ Murphy, D Riechers, S Serjeant, AM Swinbank, P Temi, M Vaccari, JD Vieira, R Auld, B Buttiglione, A Cava, A Dariush, L Dunne, SA Eales, J Fritz, H Gomez, E Ibar, S Maddox, E Pascale, M Pohlen, E Rigby, DJB Smith, J Bock, CM Bradford, J Glenn, KS Scott, J Zmuidzinas

Abstract:

The Herschel survey, H-ATLAS, with its large areal coverage, has recently discovered a number of bright, strongly lensed high-z submillimeter galaxies. The strong magnification makes it possible to study molecular species other than CO, which are otherwise difficult to observe in high-z galaxies. Among the lensed galaxies already identified by H-ATLAS, the source J090302.9-014127B (SDP.17b) at z = 2.305 is remarkable because of its excitation conditions and a tentative detection of the H2O 202-111 emission line (Lupu et al. 2010, ApJ, submitted). We report observations of this line in SDP.17b using the IRAM interferometer equipped with its new 277-371 GHz receivers. The H2O line is detected at a redshift of z = 2.3049 ± 0.0006, with a flux of 7.8 ± 0.5 Jy km s-1 and a FWHM of 250 ± 60 km s-1. The new flux is 2.4 times weaker than the previous tentative detection, although both remain marginally consistent within 1.6σ. The intrinsic line luminosity and ratio of H2O(2 02 - 111)/CO(8 - 7) are comparable with those of the nearby starburst/enshrouded-AGN Mrk 231, and the ratio I(H2O)/L FIR is even higher, suggesting that SDP.17b could also host a luminous AGN. The detection of a strong H2O 202 - 1 11 line in SDP.17b implies an efficient excitation mechanism of the water levels that must occur in very dense and warm interstellar gas probably similar to Mrk 231. © 2011 ESO.

Observing pulsars and fast transients with LOFAR

Astronomy and Astrophysics 530 (2011)

Authors:

BW Stappers, JWT Hessels, A Alexov, K Anderson, T Coenen, T Hassall, A Karastergiou, VI Kondratiev, M Kramer, J Van Leeuwen, JD Mol, A Noutsos, JW Romein, P Weltevrede, R Fender, RAMJ Wijers, L Bähren, ME Bell, J Broderick, EJ Daw, VS Dhillon, J Eislöffel, H Falcke, J Griessmeier, C Law, S Markoff, JCA Miller-Jones, B Scheers, H Spreeuw, J Swinbank, S Ter Veen, MW Wise, O Wucknitz, P Zarka, J Anderson, A Asgekar, IM Avruch, R Beck, P Bennema, MJ Bentum, P Best, J Bregman, M Brentjens, RH Van De Brink, PC Broekema, WN Brouw, M Brüggen, AG De Bruyn, HR Butcher, B Ciardi, J Conway, RJ Dettmar, A Van Duin, J Van Enst, M Garrett, M Gerbers, T Grit, A Gunst, MP Van Haarlem, JP Hamaker, G Heald, M Hoeft, H Holties, A Horneffer, LVE Koopmans, G Kuper, M Loose, P Maat, D McKay-Bukowski, JP McKean, G Miley, R Morganti, R Nijboer, JE Noordam, M Norden, H Olofsson, M Pandey-Pommier, A Polatidis, W Reich, H Röttgering, A Schoenmakers, J Sluman, O Smirnov, M Steinmetz, CGM Sterks, M Tagger, Y Tang, R Vermeulen, N Vermaas, C Vogt, M De Vos, SJ Wijnholds, S Yatawatta, A Zensus

Abstract:

Low frequency radio waves, while challenging to observe, are a rich source of information about pulsars. The LOw Frequency ARray (LOFAR) is a new radio interferometer operating in the lowest 4 octaves of the ionospheric "radio window": 10-240 MHz, that will greatly facilitate observing pulsars at low radio frequencies. Through the huge collecting area, long baselines, and flexible digital hardware, it is expected that LOFAR will revolutionize radio astronomy at the lowest frequencies visible from Earth. LOFAR is a next-generation radio telescope and a pathfinder to the Square Kilometre Array (SKA), in that it incorporates advanced multi-beaming techniques between thousands of individual elements. We discuss the motivation for low-frequency pulsar observations in general and the potential of LOFAR in addressing these science goals. We present LOFAR as it is designed to perform high-time-resolution observations of pulsars and other fast transients, and outline the various relevant observing modes and data reduction pipelines that are already or will soon be implemented to facilitate these observations. A number of results obtained from commissioning observations are presented to demonstrate the exciting potential of the telescope. This paper outlines the case for low frequency pulsar observations and is also intended to serve as a reference for upcoming pulsar/fast transient science papers with LOFAR. © 2011 ESO.