Literature DB >> 34645999

A bimodal burst energy distribution of a repeating fast radio burst source.

D Li1,2, P Wang3, W W Zhu3, B Zhang4, X X Zhang3, R Duan3, Y K Zhang3,5, Y Feng3,5,6, N Y Tang3,7, S Chatterjee8, J M Cordes8, M Cruces9, S Dai3,6,10, V Gajjar11, G Hobbs6, C Jin3, M Kramer9, D R Lorimer12,13, C C Miao3,5, C H Niu3, J R Niu3,5, Z C Pan3, L Qian3, L Spitler9, D Werthimer11, G Q Zhang14, F Y Wang14,15, X Y Xie16, Y L Yue3, L Zhang3,17, Q J Zhi16,18, Y Zhu3.   

Abstract

The event rate, energy distribution and time-domain behaviour of repeating fast radio bursts (FRBs) contain essential information regarding their physical nature and central engine, which are as yet unknown1,2. As the first precisely localized source, FRB 121102 (refs. 3-5) has been extensively observed and shows non-Poisson clustering of bursts over time and a power-law energy distribution6-8. However, the extent of the energy distribution towards the fainter end was not known. Here we report the detection of 1,652 independent bursts with a peak burst rate of 122 h-1, in 59.5 hours spanning 47 days. A peak in the isotropic equivalent energy distribution is found to be approximately 4.8 × 1037 erg at 1.25 GHz, below which the detection of bursts is suppressed. The burst energy distribution is bimodal, and well characterized by a combination of a log-normal function and a generalized Cauchy function. The large number of bursts in hour-long spans allows sensitive periodicity searches between 1 ms and 1,000 s. The non-detection of any periodicity or quasi-periodicity poses challenges for models involving a single rotating compact object. The high burst rate also implies that FRBs must be generated with a high radiative efficiency, disfavouring emission mechanisms with large energy requirements or contrived triggering conditions.
© 2021. The Author(s), under exclusive licence to Springer Nature Limited.

Entities:  

Year:  2021        PMID: 34645999     DOI: 10.1038/s41586-021-03878-5

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


  5 in total

1.  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

2.  The dispersion-brightness relation for fast radio bursts from a wide-field survey.

Authors:  R M Shannon; J-P Macquart; K W Bannister; R D Ekers; C W James; S Osłowski; H Qiu; M Sammons; A W Hotan; M A Voronkov; R J Beresford; M Brothers; A J Brown; J D Bunton; A P Chippendale; C Haskins; M Leach; M Marquarding; D McConnell; M A Pilawa; E M Sadler; E R Troup; J Tuthill; M T Whiting; J R Allison; C S Anderson; M E Bell; J D Collier; G Gürkan; G Heald; C J Riseley
Journal:  Nature       Date:  2018-10-10       Impact factor: 49.962

3.  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

4.  Diverse polarization angle swings from a repeating fast radio burst source.

Authors:  R Luo; B J Wang; Y P Men; C F Zhang; J C Jiang; H Xu; W Y Wang; K J Lee; J L Han; B Zhang; R N Caballero; M Z Chen; X L Chen; H Q Gan; Y J Guo; L F Hao; Y X Huang; P Jiang; H Li; J Li; Z X Li; J T Luo; J Pan; X Pei; L Qian; J H Sun; M Wang; N Wang; Z G Wen; R X Xu; Y H Xu; J Yan; W M Yan; D J Yu; J P Yuan; S B Zhang; Y Zhu
Journal:  Nature       Date:  2020-10-28       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
  5 in total
  2 in total

1.  A fast radio burst source at a complex magnetized site in a barred galaxy.

Authors:  H Xu; J R Niu; P Chen; K J Lee; W W Zhu; S Dong; B Zhang; J C Jiang; B J Wang; J W Xu; C F Zhang; H Fu; A V Filippenko; E W Peng; D J Zhou; Y K Zhang; P Wang; Y Feng; Y Li; T G Brink; D Z Li; W Lu; Y P Yang; R N Caballero; C Cai; M Z Chen; Z G Dai; S G Djorgovski; A Esamdin; H Q Gan; P Guhathakurta; J L Han; L F Hao; Y X Huang; P Jiang; C K Li; D Li; H Li; X Q Li; Z X Li; Z Y Liu; R Luo; Y P Men; C H Niu; W X Peng; L Qian; L M Song; D Stern; A Stockton; J H Sun; F Y Wang; M Wang; N Wang; W Y Wang; X F Wu; S Xiao; S L Xiong; Y H Xu; R X Xu; J Yang; X Yang; R Yao; Q B Yi; Y L Yue; D J Yu; W F Yu; J P Yuan; B B Zhang; S B Zhang; S N Zhang; Y Zhao; W K Zheng; Y Zhu; J H Zou
Journal:  Nature       Date:  2022-09-21       Impact factor: 69.504

2.  The impact of FAST on the research of fast radio bursts.

Authors:  Renxin Xu
Journal:  Natl Sci Rev       Date:  2021-11-16       Impact factor: 17.275
  2 in total

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