The Square Kilometre Array (SKA)

Detection and localization of the highly active FRB 20240114A with MeerKAT

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 533:3 (2024) 3174-3193

Authors:

J Tian, KM Rajwade, I Pastor-Marazuela, BW Stappers, MC Bezuidenhout, M Caleb, F Jankowski, ED Barr, M Kramer

Rocking the BOAT: the ups and downs of the long-term radio light curve for GRB 221009A

ArXiv 2408.16637 (2024)

Authors:

L Rhodes, AJ van der Horst, JS Bright, JK Leung, GE Anderson, R Fender, JF Agüí Fernandez, M Bremer, P Chandra, D Dobie, W Farah, S Giarratana, K Gourdji, DA Green, E Lenc, MJ Michałowski, T Murphy, AJ Nayana, AW Pollak, A Rowlinson, F Schussler, A Siemion, RLC Starling, P Scott, CC Thöne, D Titterington, A de Ugarte Postigo

The sizes of bright Lyman-break galaxies at z ≃ 3–5 with JWST PRIMER

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 533:3 (2024) 3724-3741

Authors:

RG Varadaraj, RAA Bowler, MJ Jarvis, NJ Adams, N Choustikov, AM Koekemoer, AC Carnall, DJ McLeod, JS Dunlop, CT Donnan, NA Grogin

Distance estimation of gamma-ray emitting BL Lac objects from imaging observations

(2024)

Authors:

K Nilsson, V Fallah Ramazani, E Lindfors, P Goldoni, J Becerra González, JA Acosta Pulido, R Clavero, J Otero-Santos, T Pursimo, S Pita, PM Kouch, C Boisson, M Backes, G Cotter, F D'Ammando, E Kasai

Computational forms for binary particle interactions at different levels of anisotropy

RAS Techniques and Instruments Oxford University Press 3:1 (2024) 548-555

Authors:

Christopher N Everett, Garret Cotter

Abstract:

Particle interactions are key elements of many dynamical systems. In the context of systems described by a Boltzmann equation, such interactions may be described by a collision integral, a multidimensional integral over the momentum-phase space of the interaction. This integral is often simplified by assuming isotropic particle distributions; however, such an assumption places constraints on the dynamics of the system. This paper presents computational forms of the collision integral for relativistic, binary interactions at three levels of anisotropy, including a novel form in the isotropic case. All these forms are split into two parts, an absorption and an emission spectrum, which may be pre-calculated via numerical integration for simulation purposes. We demonstrate the use of these forms by comparison with the analytically integrated, isotropic emission spectrum of electron–positron annihilation, which are shown to agree to numerical precision. The emission spectrum is then further extended to axisymmetric particle distributions, where two-dimensional spectral maps can be generated to provide new insight.