Gamma-ray astronomy

First LOFAR observations at very low frequencies of cluster-scale non-thermal emission: The case of Abell 2256

Astronomy and Astrophysics 543 (2012)

Authors:

RJ Van Weeren, HJA Röttgering, DA Rafferty, R Pizzo, A Bonafede, M Brüggen, G Brunetti, C Ferrari, E Orrù, G Heald, JP McKean, C Tasse, F De Gasperin, L Bîrzan, JE Van Zwieten, S Van Der Tol, A Shulevski, N Jackson, AR Offringa, J Conway, HT Intema, TE Clarke, I Van Bemmel, GK Miley, GJ White, M Hoeft, R Cassano, G MacArio, R Morganti, MW Wise, C Horellou, EA Valentijn, O Wucknitz, K Kuijken, TA Enßlin, J Anderson, A Asgekar, IM Avruch, R Beck, ME Bell, MR Bell, MJ Bentum, G Bernardi, P Best, AJ Boonstra, M Brentjens, RH Van De Brink, J Broderick, WN Brouw, HR Butcher, W Van Cappellen, B Ciardi, J Eislöffel, H Falcke, R Fender, MA Garrett, M Gerbers, A Gunst, MP Van Haarlem, JP Hamaker, T Hassall, JWT Hessels, LVE Koopmans, G Kuper, J Van Leeuwen, P Maat, R Millenaar, H Munk, R Nijboer, JE Noordam, VN Pandey, M Pandey-Pommier, A Polatidis, W Reich, AMM Scaife, A Schoenmakers, J Sluman, BW Stappers, M Steinmetz, J Swinbank, M Tagger, Y Tang, R Vermeulen, M De Vos

Abstract:

Abell 2256 is one of the best known examples of a galaxy cluster hosting large-scale diffuse radio emission that is unrelated to individual galaxies. It contains both a giant radio halo and a relic, as well as a number of head-tail sources and smaller diffuse steep-spectrum radio sources. The origin of radio halos and relics is still being debated, but over the last years it has become clear that the presence of these radio sources is closely related to galaxy cluster merger events. Here we present the results from the first LOFAR low band antenna (LBA) observations of Abell 2256 between 18 and 67 MHz. To our knowledge, the image presented in this paper at 63 MHz is the deepest ever obtained at frequencies below 100 MHz in general. Both the radio halo and the giant relic are detected in the image at 63 MHz, and the diffuse radio emission remains visible at frequencies as low as 20 MHz. The observations confirm the presence of a previously claimed ultra-steep spectrum source to the west of the cluster center with a spectral index of-2.3 ± 0.4 between 63 and 153 MHz. The steep spectrum suggests that this source is an old part of a head-tail radio source in the cluster. For the radio relic we find an integrated spectral index of-0.81 ± 0.03, after removing the flux contribution from the other sources. This is relatively flat which could indicate that the efficiency of particle acceleration at the shock substantially changed in the last ~0.1 Gyr due to an increase of the shock Mach number. In an alternative scenario, particles are re-accelerated by some mechanism in the downstream region of the shock, resulting in the relatively flat integrated radio spectrum. In the radio halo region we find indications of low-frequency spectral steepening which may suggest that relativistic particles are accelerated in a rather inhomogeneous turbulent region. © 2012 ESO.

Revisiting a fundamental test of the disc instability model for X-ray binaries

(2012)

Authors:

M Coriat, RP Fender, G Dubus

First LOFAR observations at very low frequencies of cluster-scale non-thermal emission: the case of Abell 2256

(2012)

Authors:

RJ van Weeren, HJA Rottgering, DA Rafferty, R Pizzo, A Bonafede, M Bruggen, G Brunetti, C Ferrari, E Orru, G Heald, JP McKean, C Tasse, F de Gasperin, L Birzan, JE van Zwieten, S van der Tol, A Shulevski, N Jackson, AR Offringa, J Conway, HT Intema, TE Clarke, I van Bemmel, GK Miley, GJ White, M Hoeft, R Cassano, G Macario, R Morganti, MW Wise, C Horellou, EA Valentijn, O Wucknitz, K Kuijken, TA Ensslin, J Anderson, A Asgekar, IM Avruch, R Beck, ME Bell, MR Bell, MJ Bentum, G Bernardi, P Best, A-J Boonstra, M Brentjens, RH van de Brink, J Broderick, WN Brouw, HR Butcher, W van Cappellen, B Ciardi, J Eisloffel, H Falcke, R Fender, MA Garrett, M Gerbers, A Gunst, JP Hamaker T Hassall, JWT Hessels, LVE Koopmans, G Kuper, J van Leeuwen, P Maat, R Millenaar, H Munk, R Nijboer, JE Noordam, VN Pandey, M Pandey-Pommier, A Polatidis, W Reich, AMM Scaife, A Schoenmakers, J Sluman, BW Stappers, M Steinmetz, J Swinbank, M Tagger, Y Tang, R Vermeulen, M de Vos

Ubiquitous equatorial accretion disc winds in black hole soft states

Monthly Notices of the Royal Astronomical Society: Letters 422:1 (2012)

Authors:

G Ponti, RP Fender, MC Begelman, RJH Dunn, J Neilsen, M Coriat

Abstract:

High-resolution spectra of Galactic black holes (GBHs) reveal the presence of highly ionized absorbers. In one GBH, accreting close to the Eddington limit for more than a decade, a powerful accretion disc wind is observed to be present in softer X-ray states and it has been suggested that it can carry away enough mass and energy to quench the radio jet. Here we report that these winds, which may have mass outflow rates of the order of the inner accretion rate or higher, are a ubiquitous component of the jet-free soft states of all GBHs. We furthermore demonstrate that these winds have an equatorial geometry with opening angles of few tens of degrees, and so are only observed in sources in which the disc is inclined at a large angle to the line of sight. The decrease in Fe XXV/Fe XXVI line ratio with Compton temperature, observed in the soft state, suggests a link between higher wind ionization and harder spectral shapes. Although the physical interaction between the wind, accretion flow and jet is still not fully understood, the mass flux and power of these winds and their presence ubiquitously during the soft X-ray states suggest they are fundamental components of the accretion phenomenon. © 2012 The Authors. Monthly Notices of the Royal Astronomical Society © 2012 RAS.

The black hole candidate MAXIJ1659-152 in and towards quiescence in X-ray and radio

(2012)

Authors:

Peter G Jonker, James CA Miller-Jones, J Homan, J Tomsick, RP Fender, P Kaaret, S Markoff, E Gallo