Literature DB >> 35197615

A repeating fast radio burst source in a globular cluster.

F Kirsten1,2, B Marcote3, K Nimmo4,5, J W T Hessels4,5, M Bhardwaj6,7, S P Tendulkar8,9, A Keimpema3, J Yang10, M P Snelders5, P Scholz11, A B Pearlman6,7,12, C J Law13,14, W M Peters15, M Giroletti16, Z Paragi3, C Bassa4, D M Hewitt5, U Bach17, V Bezrukovs18, M Burgay19, S T Buttaccio20, J E Conway10, A Corongiu19, R Feiler21, O Forssén10, M P Gawroński21, R Karuppusamy17, M A Kharinov22, M Lindqvist10, G Maccaferri16, A Melnikov22, O S Ould-Boukattine5, A Possenti19,23, G Surcis19, N Wang24, J Yuan24, K Aggarwal25,26, R Anna-Thomas25,26, G C Bower27, R Blaauw4, S Burke-Spolaor25,26,28, T Cassanelli11,29, T E Clarke15, E Fonseca6,7,25,26, B M Gaensler11,29, A Gopinath5, V M Kaspi6,7, N Kassim15, T J W Lazio30, C Leung31,32, D Z Li13, H H Lin33,34, K W Masui31,32, R Mckinven11, D Michilli6,7,31,32, A G Mikhailov22, C Ng11, A Orbidans18, U L Pen11,28,33,35,34, E Petroff5,6,7, M Rahman36, S M Ransom37, K Shin31,32, K M Smith35, I H Stairs38, W Vlemmings10.   

Abstract

Fast radio bursts (FRBs) are flashes of unknown physical origin1. The majority of FRBs have been seen only once, although some are known to generate multiple flashes2,3. Many models invoke magnetically powered neutron stars (magnetars) as the source of the emission4,5. Recently, the discovery6 of another repeater (FRB 20200120E) was announced, in the direction of the nearby galaxy M81, with four potential counterparts at other wavelengths6. Here we report observations that localized the FRB to a globular cluster associated with M81, where it is 2 parsecs away from the optical centre of the cluster. Globular clusters host old stellar populations, challenging FRB models that invoke young magnetars formed in a core-collapse supernova. We propose instead that FRB 20200120E originates from a highly magnetized neutron star formed either through the accretion-induced collapse of a white dwarf, or the merger of compact stars in a binary system7. Compact binaries are efficiently formed inside globular clusters, so a model invoking them could also be responsible for the observed bursts.
© 2022. The Author(s), under exclusive licence to Springer Nature Limited.

Entities:  

Year:  2022        PMID: 35197615     DOI: 10.1038/s41586-021-04354-w

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  7 in total

1.  Radio detections during two state transitions of the intermediate-mass black hole HLX-1.

Authors:  Natalie Webb; David Cseh; Emil Lenc; Olivier Godet; Didier Barret; Stephane Corbel; Sean Farrell; Robert Fender; Neil Gehrels; Ian Heywood
Journal:  Science       Date:  2012-07-05       Impact factor: 47.728

2.  A direct localization of a fast radio burst and its host.

Authors:  S Chatterjee; C J Law; R S Wharton; S Burke-Spolaor; J W T Hessels; G C Bower; J M Cordes; S P Tendulkar; C G Bassa; P Demorest; B J Butler; A Seymour; P Scholz; M W Abruzzo; S Bogdanov; V M Kaspi; A Keimpema; T J W Lazio; B Marcote; M A McLaughlin; Z Paragi; S M Ransom; M Rupen; L G Spitler; H J van Langevelde
Journal:  Nature       Date:  2017-01-04       Impact factor: 49.962

3.  An ultraluminous X-ray source powered by an accreting neutron star.

Authors:  M Bachetti; F A Harrison; D J Walton; B W Grefenstette; D Chakrabarty; F Fürst; D Barret; A Beloborodov; S E Boggs; F E Christensen; W W Craig; A C Fabian; C J Hailey; A Hornschemeier; V Kaspi; S R Kulkarni; T Maccarone; J M Miller; V Rana; D Stern; S P Tendulkar; J Tomsick; N A Webb; W W Zhang
Journal:  Nature       Date:  2014-10-09       Impact factor: 49.962

4.  A repeating fast radio burst.

Authors:  L G Spitler; P Scholz; J W T Hessels; S Bogdanov; A Brazier; F Camilo; S Chatterjee; J M Cordes; F Crawford; J Deneva; R D Ferdman; P C C Freire; V M Kaspi; P Lazarus; R Lynch; E C Madsen; M A McLaughlin; C Patel; S M Ransom; A Seymour; I H Stairs; B W Stappers; J van Leeuwen; W W Zhu
Journal:  Nature       Date:  2016-03-02       Impact factor: 49.962

5.  An extreme magneto-ionic environment associated with the fast radio burst source FRB 121102.

Authors:  D Michilli; A Seymour; J W T Hessels; L G Spitler; V Gajjar; A M Archibald; G C Bower; S Chatterjee; J M Cordes; K Gourdji; G H Heald; V M Kaspi; C J Law; C Sobey; E A K Adams; C G Bassa; S Bogdanov; C Brinkman; P Demorest; F Fernandez; G Hellbourg; T J W Lazio; R S Lynch; N Maddox; B Marcote; M A McLaughlin; Z Paragi; S M Ransom; P Scholz; A P V Siemion; S P Tendulkar; P Van Rooy; R S Wharton; D Whitlow
Journal:  Nature       Date:  2018-01-10       Impact factor: 49.962

6.  A repeating fast radio burst source localized to a nearby spiral galaxy.

Authors:  B Marcote; K Nimmo; J W T Hessels; S P Tendulkar; C G Bassa; Z Paragi; A Keimpema; M Bhardwaj; R Karuppusamy; V M Kaspi; C J Law; D Michilli; K Aggarwal; B Andersen; A M Archibald; K Bandura; G C Bower; P J Boyle; C Brar; S Burke-Spolaor; B J Butler; T Cassanelli; P Chawla; P Demorest; M Dobbs; E Fonseca; U Giri; D C Good; K Gourdji; A Josephy; A Yu Kirichenko; F Kirsten; T L Landecker; D Lang; T J W Lazio; D Z Li; H-H Lin; J D Linford; K Masui; J Mena-Parra; A Naidu; C Ng; C Patel; U-L Pen; Z Pleunis; M Rafiei-Ravandi; M Rahman; A Renard; P Scholz; S R Siegel; K M Smith; I H Stairs; K Vanderlinde; A V Zwaniga
Journal:  Nature       Date:  2020-01-06       Impact factor: 49.962

7.  A census of baryons in the Universe from localized fast radio bursts.

Authors:  J-P Macquart; J X Prochaska; M McQuinn; K W Bannister; S Bhandari; C K Day; A T Deller; R D Ekers; C W James; L Marnoch; S Osłowski; C Phillips; S D Ryder; D R Scott; R M Shannon; N Tejos
Journal:  Nature       Date:  2020-05-27       Impact factor: 49.962
  7 in total

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