A repeating fast radio burst source in a globular cluster

F. Kirsten (Chalmers); B. Marcote (JIVE); K. Nimmo (ASTRON; University; of Amsterdam); J. W. T. Hessels (University of Amsterdam; ASTRON); M.; Bhardwaj (McGill University); S. P. Tendulkar (TIFR; NCRA); A. Keimpema; (JIVE); J. Yang (Chalmers); M. P. Snelders (University of Amsterdam); P.; Scholz (Dunlap); A. B. Pearlman (McGill University; Caltech); C. J. Law; (Caltech); W. M. Peters (NRL); M. Giroletti (INAF); Z. Paragi (JIVE); C.; Bassa (ASTRON); D. M. Hewitt (University of Amsterdam); U. Bach (MPIfR); V.; Bezrukovs (ERI VIRAC); M. Burgay (INAF); S. T. Buttaccio (INAF); J. E. Conway; (Chalmers); A. Corongiu (INAF); R. Feiler (NCU); O. Forss\'en (Chalmers); M.; P. Gawro\'nski (NCU); R. Karuppusamy (MPIfR); M. A. Kharinov (IAA RAS); M.; Lindqvist (Chalmers); G. Maccaferri (INAF); A. Melnikov (IAA RAS); O. S.; Ould-Boukattine (University of Amsterdam); A. Possenti (INAF; University of; Cagliari); G. Surcis (INAF); N. Wang (XAO); J. Yuan (XAO); K. Aggarwal (West; Virginia University); R. Anna-Thomas (West Virginia University); G. C. Bower; (ASIAA); R. Blaauw (ASTRON); S. Burke-Spolaor (West Virginia University,; CIFAR); T. Cassanelli (Dunlap; University of Toronto); T. E. Clarke (NRL); E.; Fonseca (McGill University; West Virginia University); B. M. Gaensler; (Dunlap; University of Toronto); A. Gopinath (University of Amsterdam); V. M.; Kaspi (McGill University); N. Kassim (NRL); T. J. W. Lazio (Caltech); C.; Leung (MIT); D. Z. Li (Caltech); H. H. Lin (University of Toronto); K. W.; Masui (MIT); R. Mckinven (University of Toronto); D. Michilli (McGill; University); A. Mikhailov (IAA RAS); C. Ng (University of Toronto); A.; Orbidans (ERI VIRAC); U. L. Pen (University of Toronto; Dunlap; Perimeter,; CIFAR); E. Petroff (University of Amsterdam; McGill University); M. Rahman; (Sidrat); S. M. Ransom (NRAO); K. Shin (MIT); K. M. Smith (Perimeter); I. H.; Stairs (UBC); and W. Vlemmings (Chalmers)

arXiv:2105.11445·astro-ph.HE·March 2, 2022

A repeating fast radio burst source in a globular cluster

F. Kirsten (Chalmers), B. Marcote (JIVE), K. Nimmo (ASTRON, University, of Amsterdam), J. W. T. Hessels (University of Amsterdam, ASTRON), M., Bhardwaj (McGill University), S. P. Tendulkar (TIFR, NCRA), A. Keimpema, (JIVE), J. Yang (Chalmers)

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TL;DR

This paper localizes FRB 20200120E precisely, linking it to a globular cluster in M81, challenging young magnetar models and suggesting an origin from old stellar populations like white dwarf collapse or binary mergers.

Contribution

It provides the first precise localization of a repeating FRB to a globular cluster, indicating an origin from old stellar populations and challenging existing magnetar-based models.

Findings

01

FRB 20200120E is associated with a globular cluster in M81.

02

The FRB is 40 times closer than other known extragalactic FRBs.

03

The origin likely involves old stellar objects, not young magnetars.

Abstract

Fast radio bursts (FRBs) are exceptionally luminous flashes of unknown physical origin, reaching us from other galaxies (Petroff et al. 2019). Most FRBs have only ever been seen once, while others flash repeatedly, though sporadically (Spitler et al. 2016, CHIME/FRB Collaboration et al. 2021). Many models invoke magnetically powered neutron stars (magnetars) as the engines producing FRB emission (Margalit & Metzger 2018, CHIME/FRB Collaboration et al. 2020). Recently, CHIME/FRB announced the discovery (Bhardwaj et al. 2021) of the repeating FRB 20200120E, coming from the direction of the nearby grand design spiral galaxy M81. Four potential counterparts at other observing wavelengths were identified (Bhardwaj et al. 2021) but no definitive association with these sources, or M81, could be made. Here we report an extremely precise localisation of FRB 20200120E, which allows us to…

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