Gamma-ray astronomy

Dynamic shocks powered by a wide, relativistic, super-Eddington outflow launched by an accreting neutron star in the mid-20th century

(2026)

Authors:

FJ Cowie, RP Fender, I Heywood, F Carotenuto, JH Matthews, B Reville, L Olivera-Nieto, AJ Cooper, AK Hughes, K Savard, PA Woudt, J van den Eijnden, N Grollimund, P Saikia

Evidence of mutually exclusive outflow forms from a black hole X-ray binary

(2026)

Authors:

Zuobin Zhang, Jiachen Jiang, Francesco Carotenuto, Honghui Liu, Cosimo Bambi, Rob P Fender, Andrew J Young, Jakob van den Eijnden, Christopher S Reynolds, Andrew C Fabian, Julien N Girard, Joey Neilsen, James F Steiner, John A Tomsick, Stà phane Corbel, Andrew K Hughes

The odyssey of the black hole low mass X-ray binary GX339-4: Five years of dense multi-wavelength monitoring

(2026)

Authors:

E Tremou, S Corbel, R Fender, P Woudt, JCA Miller-Jones, I Heywood, F Carotenuto, S Motta, A Tzioumis, PJ Groot, DM Russell, J Crook-Mansour, P Saikia, W Yu, J van den Eijnden, AJ van der Horst, DRA Williams-Baldwin, X Zhang

Cosmic rays, gamma rays and neutrinos from discrete black hole X-ray binary ejecta

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2026) stag080

Authors:

Nicolas J Bacon, Alex J Cooper, Dimitrios Kantzas, James H Matthews, Rob Fender

Abstract:

Abstract The origin of cosmic rays from outside the Solar system are unknown, as they are deflected by the interstellar magnetic field. Supernova remnants are the main candidate for cosmic rays up to PeV energies but due to lack of evidence, they cannot be concluded as the sources of the most energetic Galactic CRs. We investigate discrete ejecta produced in state transitions of black hole X-ray binary systems as a potential source of cosmic rays, motivated by recent >100 TeV γ-ray detections by LHAASO. Starting from MAXI J1820+070, we examine the multi-wavelength observations and find that efficient particle acceleration may take place (i.e. into a robust power-law), up to ∼2 × 1016μ−1/2 eV, where μ is the ratio of particle energy to magnetic energy. From these calculations, we estimate the global contribution of ejecta to the entire Galactic spectrum to be $\sim 1~{{\ \rm per\ cent}}$, with the cosmic ray contribution rising to $\sim 5~{{\ \rm per\ cent}}$ at PeV energies, assuming roughly equal energy in non-thermal protons, non-thermal electrons and magnetic fields. In addition, we calculate associated γ-ray and neutrino spectra of the MAXI J1820+070 ejecta to investigate new detection methods with CTAO, which provide strong constraints on initial ejecta size of order 107 Schwarzschild radii (10−5 pc) assuming a period of adiabatic expansion.

Cosmic rays, γ -rays, and neutrinos from discrete black hole X-ray binary ejecta

Monthly Notices of the Royal Astronomical Society Oxford University Press 546:2 (2026) stag080

Authors:

Nicolas J Bacon, Alex J Cooper, Dimitrios Kantzas, James H Matthews, Rob Fender

Abstract:

The origin of cosmic rays (CRs) from outside the Solar system is unknown, as they are deflected by the interstellar magnetic field. Supernova remnants are the main candidate for CRs up to PeV energies but due to lack of evidence, they cannot be concluded as the sources of the most energetic Galactic CRs. We investigate discrete ejecta produced in state transitions of black hole X-ray binary systems as a potential source of CRs, motivated by recent TeV -ray detections by LHAASO. Starting from MAXI J1820+070, we examine the multi-wavelength observations and find that efficient particle acceleration may take place (i.e. into a robust power law), up to eV, where is the ratio of particle energy to magnetic energy. From these calculations, we estimate the global contribution of ejecta to the entire Galactic spectrum to be , with the CR contribution rising to at PeV energies, assuming roughly equal energy in non-thermal protons, non-thermal electrons, and magnetic fields. In addition, we calculate associated -ray and neutrino spectra of the MAXI J1820+070 ejecta to investigate new detection methods with CTAO, which provide strong constraints on initial ejecta size of order Schwarzschild radii ( pc) assuming a period of adiabatic expansion.