Gamma-ray astronomy

A non-equipartition shockwave traveling in a dense circumstellar environment around SN2020oi

(2020)

Authors:

Assaf Horesh, Itai Sfaradi, Mattias Ergon, Cristina Barbarino, Jesper Sollerman, Javier Moldon, Dougal Dobie, Steve Schulze, Miguel Perez-Torres, David RA Williams, Christoffer Fremling, Avishay Gal-Yam, Shrinivas R Kulkarni, Andrew O'Brien, Peter Lundqvist, Tara Murphy, Rob Fender, Justin Belicki, Eric C Bellm, Michael W Coughlin, Eran O Ofek, V Zach Golkhou, Matthew J Graham, Dave A Green, Thomas Kupfer, Russ R Laher, Frank J Masci, Adam A Miller, James D Neill, Yvette Perrott, Michael Porter, Daniel J Reiley, Mickael Rigault, Hector Rodriguez, Ben Rusholme, David L Shupe, David Titterington

Radio afterglows of very high-energy gamma-ray bursts 190829A and 180720B

Monthly Notices of the Royal Astronomical Society Oxford University Press 496:3 (2020) 3326-3335

Authors:

Lauren Rhodes, Aj van der Horst, Robert Fender, IM Monageng, GE Anderson, J Antoniadis, MF Bietenholz, M Bottcher, Joe Bright, DA Green, C Kouveliotou, M Kramer, SE Motta, RAMJ Wijers, David Williams, PA Woudt

Abstract:

We present high-cadence multifrequency radio observations of the long gamma-ray burst (GRB) 190829A, which was detected at photon energies above 100 GeV by the High Energy Stereoscopic System (H.E.S.S.). Observations with the Meer Karoo Array Telescope (MeerKAT, 1.3 GHz) and Arcminute Microkelvin Imager – Large Array (AMI-LA, 15.5 GHz) began one day post-burst and lasted nearly 200 d. We used complementary data from Swift X-Ray Telescope (XRT), which ran to 100 d post-burst. We detected a likely forward shock component with both MeerKAT and XRT up to over 100 d post-burst. Conversely, the AMI-LA light curve appears to be dominated by reverse shock emission until around 70 d post-burst when the afterglow flux drops below the level of the host galaxy. We also present previously unpublished observations of the other H.E.S.S.-detected GRB, GRB 180720B from AMI-LA, which shows likely forward shock emission that fades in less than 10 d. We present a comparison between the radio emission from the three GRBs with detected very high energy (VHE) gamma-ray emission and a sensitivity-limited radio afterglow sample. GRB 190829A has the lowest isotropic radio luminosity of any GRB in our sample, but the distribution of luminosities is otherwise consistent, as expected, with the VHE GRBs being drawn from the same parent distribution as the other radio-detected long GRBs.

Simultaneous multi-telescope observations of FRB 121102

(2020)

Authors:

M Caleb, BW Stappers, TD Abbott, ED Barr, MC Bezuidenhout, SJ Buchner, M Burgay, W Chen, I Cognard, LN Driessen, R Fender, GH Hilmarsson, J Hoang, DM Horn, F Jankowski, M Kramer, DR Lorimer, M Malenta, V Morello, M Pilia, E Platts, A Possenti, KM Rajwade, A Ridolfi, L Rhodes, S Sanidas, M Serylak, LG Spitler, LJ Townsend, A Weltman, PA Woudt, J Wu

A MeerKAT Survey of Nearby Novalike Cataclysmic Variables

(2020)

Authors:

DM Hewitt, ML Pretorius, PA Woudt, E Tremou, JCA Miller-Jones, C Knigge, N Castro Segura, DRA Williams, RP Fender, R Armstrong, P Groot, I Heywood, A Horesh, AJ van der Horst, E Koerding, VA McBride, KP Mooley, A Rowlinson, B Stappers, RAMJ Wijers

On the relative importance of hadronic emission processes along the jet axis of Active Galactic Nuclei

Monthly Notices of the Royal Astronomical Society Oxford University Press 496:3 (2020) 2885-2901

Authors:

Mario Robert Hoerbe, Paul Morris, Garret Cotter, Julia Becker Tjus

Abstract:

With the coincident detection of a gamma-ray flare and a neutrino from the blazar TXS 0506+056, active galactic nuclei (AGNs) have been put into focus as possible sources of the diffuse neutrino flux. We present a space and time-resolved model of the high-energy particle emission of a plasmoid assumed to travel along the axis of an AGN jet at relativistic speed. This was achieved by modifying the publicly available CRPROPA (version 3.1+) propagation framework that in our work is capable of being applied to source physics on sub-kpc scales. The propagation of a population of primary protons is modelled in a purely turbulent magnetic field and we take into account interactions of these protons with photons scattered from the accretion disc, synchrotron radiation emitted by ambient relativistic electrons, as well with themselves and with other ambient matter. Our model produces a PeV-neutrino flare caused mainly by photohadronic interactions of primaries with the accretion disc field. Secondary high-energy gamma-rays partly attenuate with the ambient photon fields whose combined optical depths achieve their minimal opacity for photons of around 10 TeV. Thus, our model is well capable of producing neutrino flares with a significantly reduced emission of gamma-rays in jets with a hadronic jet component that in the future can be fit to specific AGN flare scenarios.