Gamma-ray astronomy

MeerKAT discovery of radio emission from the Vela X-1 bow shock

Monthly Notices of the Royal Astronomical Society Oxford University Press 510:1 (2021) 515-530

Authors:

J van den Eijnden, I Heywood, R Fender, S Mohamed, Gr Sivakoff, P Saikia, Td Russell, S Motta, Jca Miller-Jones, Pa Woudt

Abstract:

Vela X-1 is a runaway X-ray binary system hosting a massive donor star, whose strong stellar wind creates a bow shock as it interacts with the interstellar medium (ISM). This bow shock has previously been detected in H α and infrared, but, similar to all but one bow shock from a massive runaway star (BD+43o3654), has escaped detection in other wavebands. We report on the discovery of 1.3 GHz radio emission from the Vela X-1 bow shock with the MeerKAT telescope. The MeerKAT observations reveal how the radio emission closely traces the H α line emission, both in the bow shock and in the larger scale diffuse structures known from existing H α surveys. The Vela X-1 bow shock is the first stellar-wind-driven radio bow shock detected around an X-ray binary. In the absence of a radio spectral index measurement, we explore other avenues to constrain the radio emission mechanism. We find that thermal/free-free emission can account for the radio and H α properties, for a combination of electron temperature and density consistent with earlier estimates of ISM density and the shock enhancement. In this explanation, the presence of a local ISM overdensity is essential for the detection of radio emission. Alternatively, we consider a non-thermal/synchrotron scenario, evaluating the magnetic field and broad-band spectrum of the shock. However, we find that exceptionally high fractions (13 per cent) of the kinetic wind power would need to be injected into the relativistic electron population to explain the radio emission. Assuming lower fractions implies a hybrid scenario, dominated by free-free radio emission. Finally, we speculate about the detectability of radio bow shocks and whether it requires exceptional ISM or stellar wind properties.

MeerKAT discovery of radio emission from the Vela X-1 bow shock

(2021)

Authors:

J van den Eijnden, I Heywood, R Fender, S Mohamed, GR Sivakoff, P Saikia, TD Russell, S Motta, JCA Miller-Jones, PA Woudt

The Thousand-Pulsar-Array programme on MeerKAT VII: Polarisation properties of pulsars in the Magellanic Clouds

(2021)

Authors:

S Johnston, A Parthasarathy, RA Main, JP Ridley, BS Koribalski, M Bailes, SJ Buchner, M Geyer, A Karastergiou, MJ Keith, M Kramer, M Serylak, RM Shannon, R Spiewak, V Venkatraman Krishnan

Quantum gravity phenomenology at the dawn of the multi-messenger era -- A review

(2021)

Authors:

A Addazi, J Alvarez-Muniz, R Alves Batista, G Amelino-Camelia, V Antonelli, M Arzano, M Asorey, J-L Atteia, S Bahamonde, F Bajardi, A Ballesteros, B Baret, DM Barreiros, S Basilakos, D Benisty, O Birnholtz, JJ Blanco-Pillado, D Blas, J Bolmont, D Boncioli, P Bosso, G Calcagni, S Capozziello, JM Carmona, S Cerci, M Chernyakova, S Clesse, JAB Coelho, SM Colak, JL Cortes, S Das, V D'Esposito, M Demirci, MG Di Luca, A di Matteo, D Dimitrijevic, G Djordjevic, D Dominis Prester, A Eichhorn, J Ellis, C Escamilla-Rivera, G Fabiano, SA Franchino-Viñas, AM Frassino, D Frattulillo, S Funk, A Fuster, J Gamboa, A Gent, LÁ Gergely, M Giammarchi, K Giesel, J-F Glicenstein, J Gracia-Bondía, G Gubitosi, EI Guendelman, I Gutierrez-Sagredo, L Haegel, S Heefer, A Held, FJ Herranz, T Hinderer, JI Illana, A Ioannisian, P Jetzer, FR Joaquim, K-H Kampert, A Karasu Uysal, T Katori, N Kazarian, D Kerszberg, J Kowalski-Glikman, S Kuroyanagi, C Lämmerzahl, J Levi Said, S Liberati, E Lim, IP Lobo, M López-Moya, GG Luciano, M Manganaro, A Marcianò, P Martín-Moruno, Manel Martinez, Mario Martinez, H Martínez-Huerta, P Martínez-Miravé, M Masip, D Mattingly, N Mavromatos, A Mazumdar, F Méndez, F Mercati, S Micanovic, J Mielczarek, AL Miller, M Milosevic, D Minic, L Miramonti, VA Mitsou, P Moniz, S Mukherjee, G Nardini, S Navas, M Niechciol, AB Nielsen, NA Obers, F Oikonomou, D Oriti, CF Paganini, S Palomares-Ruiz, R Pasechnik, C Pérez de los Heros, C Pfeifer, MP Pieroni, T Piran, A Platania, S Rastgoo, JJ Relancio, MA Reyes, A Ricciardone, M Risse, MD Rodriguez Frias, G Rosati, D Rubiera-Garcia, H Sahlmann, M Sakellariadou, F Salamida, EN Saridakis, P Satunin, M Schiffer, F Schüssler, G Sigl, J Sitarek, J Solà Peracaula, CF Sopuerta, TP Sotiriou, M Spurio, D Staicova, N Stergioulas, S Stoica, J Strišković, T Stuttard, D Sunar Cerci, Y Tavakoli, CA Ternes, T Terzić, T Thiemann, P Tinyakov, MDC Torri, M Tórtola, C Trimarelli, T Trześniewski, A Tureanu, FR Urban, EC Vagenas, D Vernieri, V Vitagliano, J-C Wallet, JD Zornoza

LMC N132D: a mature supernova remnant with a power-law gamma-ray spectrum extending beyond 8 TeV

Astronomy and Astrophysics EDP Sciences 655 (2021) A7

Authors:

H Abdalla, F Aharonian, F Ait Benkhali, Eo Anguner, C Arcaro, C Armand, T Armstrong, H Ashkar, M Backes, V Baghmanyan, V Barbosa Martins, A Barnacka, M Barnard, R Batzofin, Y Becherini, D Berge, K Bernloehr, B Bi, M Boettcher, C Boisson, J Bolmont, M de Bony de Lavergne, M Breuhaus, R Brose, F Brun, T Bulik, T Bylund, F Cangemi, S Caroff, S Casanova, J Catalano, P Chambery, T Chand, A Chen, G Cotter, M Curylo, J Damascene Mbarubucyeye, Id Davids, J Davies, J Devin, A Djannati-Atai, A Dmytriiev, A Donath, V Doroshenko, L Dreyer, L Du Plessis, C Duffy, K Egberts, S Einecke

Abstract:

Context Supernova remnants (SNRs) are commonly thought to be the dominant sources of Galactic cosmic rays up to the knee of the cosmic-ray spectrum at a few PeV. Imaging Atmospheric Cherenkov Telescopes have revealed young SNRs as very-high-energy (VHE, >100 GeV) gamma-ray sources, but for only a few SNRs the hadronic cosmic-ray origin of their gamma-ray emission is indisputably established. In all these cases, the gamma-ray spectra exhibit a spectral cutoff at energies much below 100 TeV and thus do not reach the PeVatron regime.

Aims: The aim of this work was to achieve a firm detection for the oxygen-rich SNR LMC N132D in the VHE gamma-ray domain with an extended set of data, and to clarify the spectral characteristics and the localization of the gamma-ray emission from this exceptionally powerful gamma-ray-emitting SNR.

Methods: We analyzed 252 h of High Energy Stereoscopic System (H.E.S.S.) observations towards SNR N132D that were accumulated between December 2004 and March 2016 during a deep survey of the Large Magellanic Cloud, adding 104 h of observations to the previously published data set to ensure a > 5σ detection. To broaden the gamma-ray spectral coverage required for modeling the spectral energy distribution, an analysis of Fermi-LAT Pass 8 data was also included.

Results: We unambiguously detect N132D at VHE with a significance of 5.7σ. We report the results of a detailed analysis of its spectrum and localization based on the extended H.E.S.S. data set. The joint analysis of the extended H.E.S.S and Fermi-LAT data results in a spectral energy distribution in the energy range from 1.7 GeV to 14.8 TeV, which suggests a high luminosity of N132D at GeV and TeV energies. We set a lower limit on a gamma-ray cutoff energy of 8 TeV with a confidence level of 95%. The new gamma-ray spectrum as well as multiwavelength observations of N132D when compared to physical models suggests a hadronic origin of the VHE gamma-ray emission.

Conclusions: SNR N132D is a VHE gamma-ray source that shows a spectrum extending to the VHE domain without a spectral cutoff at a few TeV, unlike the younger oxygen-rich SNR Cassiopeia A. The gamma-ray emission is best explained by a dominant hadronic component formed by diffusive shock acceleration. The gamma-ray properties of N132D may be affected by an interaction with a nearby molecular cloud that partially lies inside the 95% confidence region of the source position.