Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/146202
Title: The Northern Cross fast radio burst project III. The FRB–magnetar connection in a sample of nearby galaxies
Authors: Pelliciari, D.
Bernardi, Gianni
Pilia, Maura
Naldi, Giovanni
Pupillo, Giuseppe
Trudu, Matteo
Addis, Antonio
Bianchi, Germano
Bortolotti, Claudio
Dallacasa, Daniele
Lulli, Roberto
Maccaferri, Andrea
Magro, Alessio
Mattana, Andrea
Perini, Federico
Roma, Mauro
Schiaffino, Marco
Setti, Giancarlo
Tavani, Marco
Verrecchia, Francesco
Casentini, Claudio
Keywords: Radio astronomy -- Observations
Magnetars -- Observations
Radio sources (Astronomy)
Radio telescopes -- Technological innovations
Galaxies -- Observations
Issue Date: 2023
Publisher: EDP Sciences
Citation: Pelliciari, D., Bernardi, G., Pilia, M., Naldi, G., Pupillo, G., Trudu, M.,...Casentini, C. (2023). The Northern Cross Fast Radio Burst project-III. The FRB–magnetar connection in a sample of nearby galaxies. Astronomy & Astrophysics, 674, A223.
Abstract: Context. Fast radio bursts (FRBs) are millisecond radio transients observed at cosmological distances. The nature of their progenitors is still a matter of debate, although magnetars are invoked by most models. The proposed FRB–magnetar connection was strengthened by the discovery of an FRB-like event from the Galactic magnetar SGR J1935+2154.
Aims. In this work we aim to investigate how prevalent magnetars such as SGR J1935+2154 are within FRB progenitors.
Methods. To this end, we carried out an FRB search in a sample of seven nearby (< 12 Mpc) galaxies with the Northern Cross Radio Telescope for a total of 692 h.
Results. We detected one 1.8 ms burst in the direction of M 101 with a fluence of 58 ± 5 Jy ms. Its dispersion measure of 303 pc cm−3 places it most likely beyond M 101. Considering that no significant detection comes indisputably from the selected galaxies, we place a 38 yr−1 upper limit on the total burst rate (i.e. including the whole sample) at the 95% confidence level. This upper limit constrains the event rate per magnetar to λmag < 0.42 magnetar−1 yr−1 or, if combined with literature observations of a similar sample of nearby galaxies, it yields a joint constraint of λmag < 0.25 magnetar−1 yr−1. We also provide the first constraints on the expected rate of FRBs hypothetically originating from ultra-luminous X-ray (ULX) sources, since some of the galaxies observed during our observational campaign host confirmed ULXs. We obtain < 13 yr−1 per ULX for the total sample of galaxies observed.
Conclusions. Our results indicate that bursts with energies E > 1034 erg from magnetars such as SGR J1935+2154 appear more rarely compared to previous observations and further disfavour them as unique progenitors for the cosmological FRB population. This provides support to the idea that there is a greater contribution from a population of more exotic magnetars not born via core-collapsed supernovae.
URI: https://www.um.edu.mt/library/oar/handle/123456789/146202
Appears in Collections:Scholarly Works - InsSSA



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