Gamma-ray astronomy

The Thousand-Pulsar-Array programme on MeerKAT -- X. Scintillation arcs of 107 pulsars

(2022)

Authors:

RA Main, A Parthasarathy, S Johnston, A Karastergiou, A Basu, AD Cameron, MJ Keith, LS Oswald, B Posselt, DJ Reardon, X Song, P Weltevrede

Optical Spectroscopy of Blazars for the Cherenkov Telescope Array -- II

(2022)

Authors:

E Kasai, P Goldoni, S Pita, DA Williams, W Max-Moerbeck, O Hervet, G Cotter, M Backes, C Boisson, J Becerra González, U Barres de Almeida, F D'Ammando, V Fallah Ramazani, E Lindfors

Constraints on axionlike particles from a combined analysis of three flaring $\textit{Fermi}$ flat-spectrum radio quasars

(2022)

Authors:

James Davies, Manuel Meyer, Garret Cotter

Optical spectroscopy of blazars for the Cherenkov Telescope Array – II

Monthly Notices of the Royal Astronomical Society Oxford University Press 518:2 (2022) 2675-2692

Authors:

E Kasai, P Goldoni, S Pita, Da Williams, W Max-Moerbeck, O Hervet, Garret Cotter, M Backes, C Boisson, J Becerra González, U Barres de Almeida, F D’Ammando, V Fallah Ramazani, E Lindfors

Abstract:

Active galactic nuclei (AGNs) make up about 35 per cent of the more than 250 sources detected in very high-energy (VHE) gamma rays to date with the imaging atmospheric Cherenkov telescopes. Apart from four nearby radio galaxies and two AGNs of unknown type, all known VHE AGNs are blazars. Knowledge of the cosmological redshift of gamma-ray blazars is key to enabling the study of their intrinsic emission properties, as the interaction between gamma rays and the extragalactic background light (EBL) results in a spectral softening. Therefore, the redshift determination exercise is crucial to indirectly placing tight constraints on the EBL density, and to studying blazar population evolution across cosmic time. Due to the powerful relativistic jets in blazars, most of their host galaxies’ spectral features are outshined, and dedicated high signal-to-noise (S/N) spectroscopic observations are required. Deep medium- to high-resolution spectroscopy of 33 gamma-ray blazar optical counterparts was performed with the European Southern Observatory, New Technology Telescope, Keck II telescope, Shane 3-metre telescope, and the Southern African Large Telescope. From the sample, spectra from 25 objects display spectral features or are featureless and have high S/N. The other eight objects have low-quality featureless spectra. We systematically searched for absorption and emission features and estimated, when possible, the fractional host galaxy flux in the measured total flux. Our measurements yielded 14 firm spectroscopic redshifts, ranging from 0.0838 to 0.8125, one tentative redshift, and two lower limits: one at z>0.382 and the other at z > 0.629.

The Thousand Pulsar Array programme on MeerKAT – X. Scintillation arcs of 107 pulsars

Monthly Notices of the Royal Astronomical Society Oxford University Press 518:1 (2022) 1086-1097

Authors:

Ra Main, A Parthasarathy, S Johnston, A Karastergiou, A Basu, Ad Cameron, Mj Keith, Lucy Oswald, B Posselt, Dj Reardon, X Song, P Weltevrede

Abstract:

We present the detection of 107 pulsars with interstellar scintillation arcs at 856–1712 MHz, observed with the MeerKAT Thousand Pulsar Array Programme. Scintillation arcs appear to be ubiquitous in clean, high S/N observations, their detection mainly limited by short observing durations and coarse frequency channel resolution. This led the survey to be sensitive to nearby, lightly scattered pulsars with high effective velocity – from a large proper motion, a screen nearby the pulsar, or a screen near the Earth. We measure the arc curvatures in all of our sources, which can be used to give an estimate of screen distances in pulsars with known proper motion, or an estimate of the proper motion. The short scintillation time-scale in J1731−4744 implies a scattering screen within 12 pc of the source, strongly suggesting the association between this pulsar and the supernova remnant RCW 114. We measure multiple parabolic arcs of five pulsars, all of which are weakly scintillating with high proper motion. Additionally, several sources show hints of inverted arclets suggesting scattering from anisotropic screens. Building on this work, further targeted MeerKAT observations of many of these pulsars will improve understanding of our local scattering environment and the origins of scintillation; annual scintillation curves would lead to robust screen distance measurements, and the evolution of arclets in time and frequency can constrain models of scintillation.