Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 An extreme magneto-ionic environment associated with the fast radio burst source FRB 121102.

Literature DB >> 29323297

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

D Michilli^1,2, A Seymour³, J W T Hessels^1,2, L G Spitler⁴, V Gajjar^5,6,7, A M Archibald^1,2, G C Bower⁸, S Chatterjee⁹, J M Cordes⁹, K Gourdji², G H Heald¹⁰, V M Kaspi¹¹, C J Law¹², C Sobey^10,13, E A K Adams^1,14, C G Bassa¹, S Bogdanov¹⁵, C Brinkman¹⁶, P Demorest¹⁷, F Fernandez³, G Hellbourg¹², T J W Lazio¹⁸, R S Lynch^19,20, N Maddox¹, B Marcote²¹, M A McLaughlin^20,22, Z Paragi²¹, S M Ransom²³, P Scholz²⁴, A P V Siemion^12,25,26, S P Tendulkar¹¹, P Van Rooy²⁷, R S Wharton⁴, D Whitlow³.

Abstract

Fast radio bursts are millisecond-duration, extragalactic radio flashes of unknown physical origin. The only known repeating fast radio burst source-FRB 121102-has been localized to a star-forming region in a dwarf galaxy at redshift 0.193 and is spatially coincident with a compact, persistent radio source. The origin of the bursts, the nature of the persistent source and the properties of the local environment are still unclear. Here we report observations of FRB 121102 that show almost 100 per cent linearly polarized emission at a very high and variable Faraday rotation measure in the source frame (varying from +1.46 × 105 radians per square metre to +1.33 × 105 radians per square metre at epochs separated by seven months) and narrow (below 30 microseconds) temporal structure. The large and variable rotation measure demonstrates that FRB 121102 is in an extreme and dynamic magneto-ionic environment, and the short durations of the bursts suggest a neutron star origin. Such large rotation measures have hitherto been observed only in the vicinities of massive black holes (larger than about 10,000 solar masses). Indeed, the properties of the persistent radio source are compatible with those of a low-luminosity, accreting massive black hole. The bursts may therefore come from a neutron star in such an environment or could be explained by other models, such as a highly magnetized wind nebula or supernova remnant surrounding a young neutron star.

Entities: Disease

Year: 2018 PMID： 29323297 DOI： 10.1038/nature25149

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

7 in total

1. Dense magnetized plasma associated with a fast radio burst.

Authors: Kiyoshi Masui; Hsiu-Hsien Lin; Jonathan Sievers; Christopher J Anderson; Tzu-Ching Chang; Xuelei Chen; Apratim Ganguly; Miranda Jarvis; Cheng-Yu Kuo; Yi-Chao Li; Yu-Wei Liao; Maura McLaughlin; Ue-Li Pen; Jeffrey B Peterson; Alexander Roman; Peter T Timbie; Tabitha Voytek; Jaswant K Yadav
Journal: Nature Date: 2015-12-02 Impact factor: 49.962

2. An expanding radio nebula produced by a giant flare from the magnetar SGR 1806-20.

Authors: B M Gaensler; C Kouveliotou; J D Gelfand; G B Taylor; D Eichler; R A M J Wijers; J Granot; E Ramirez-Ruiz; Y E Lyubarsky; R W Hunstead; D Campbell-Wilson; A J van der Horst; M A McLaughlin; R P Fender; M A Garrett; K J Newton-McGee; D M Palmer; N Gehrels; P M Woods
Journal: Nature Date: 2005-04-28 Impact factor: 49.962

3. A bright millisecond radio burst of extragalactic origin.

Authors: D R Lorimer; M Bailes; M A McLaughlin; D J Narkevic; F Crawford
Journal: Science Date: 2007-09-27 Impact factor: 47.728

4. A strong magnetic field around the supermassive black hole at the centre of the Galaxy.

Authors: R P Eatough; H Falcke; R Karuppusamy; K J Lee; D J Champion; E F Keane; G Desvignes; D H F M Schnitzeler; L G Spitler; M Kramer; B Klein; C Bassa; G C Bower; A Brunthaler; I Cognard; A T Deller; P B Demorest; P C C Freire; A Kraus; A G Lyne; A Noutsos; B Stappers; N Wex
Journal: Nature Date: 2013-08-14 Impact factor: 49.962

5. 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

6. 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

7. A population of fast radio bursts at cosmological distances.

Authors: D Thornton; B Stappers; M Bailes; B Barsdell; S Bates; N D R Bhat; M Burgay; S Burke-Spolaor; D J Champion; P Coster; N D'Amico; A Jameson; S Johnston; M Keith; M Kramer; L Levin; S Milia; C Ng; A Possenti; W van Straten
Journal: Science Date: 2013-07-05 Impact factor: 47.728

7 in total

8 in total

1. Pulsars seen through a new lens.

Authors: Jason Hessels
Journal: Nature Date: 2018-05 Impact factor: 49.962

2. Pulsar emission amplified and resolved by plasma lensing in an eclipsing binary.

Authors: Robert Main; I-Sheng Yang; Victor Chan; Dongzi Li; Fang Xi Lin; Nikhil Mahajan; Ue-Li Pen; Keith Vanderlinde; Marten H van Kerkwijk
Journal: Nature Date: 2018-05-23 Impact factor: 49.962

3. 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

4. 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

5. A repeating fast radio burst source in a globular cluster.

Authors: F Kirsten; B Marcote; K Nimmo; J W T Hessels; M Bhardwaj; S P Tendulkar; A Keimpema; J Yang; M P Snelders; P Scholz; A B Pearlman; C J Law; W M Peters; M Giroletti; Z Paragi; C Bassa; D M Hewitt; U Bach; V Bezrukovs; M Burgay; S T Buttaccio; J E Conway; A Corongiu; R Feiler; O Forssén; M P Gawroński; R Karuppusamy; M A Kharinov; M Lindqvist; G Maccaferri; A Melnikov; O S Ould-Boukattine; A Possenti; G Surcis; N Wang; J Yuan; K Aggarwal; R Anna-Thomas; G C Bower; R Blaauw; S Burke-Spolaor; T Cassanelli; T E Clarke; E Fonseca; B M Gaensler; A Gopinath; V M Kaspi; N Kassim; T J W Lazio; C Leung; D Z Li; H H Lin; K W Masui; R Mckinven; D Michilli; A G Mikhailov; C Ng; A Orbidans; U L Pen; E Petroff; M Rahman; S M Ransom; K Shin; K M Smith; I H Stairs; W Vlemmings
Journal: Nature Date: 2022-02-23 Impact factor: 49.962

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

Authors: D Li; P Wang; W W Zhu; B Zhang; X X Zhang; R Duan; Y K Zhang; Y Feng; N Y Tang; S Chatterjee; J M Cordes; M Cruces; S Dai; V Gajjar; G Hobbs; C Jin; M Kramer; D R Lorimer; C C Miao; C H Niu; J R Niu; Z C Pan; L Qian; L Spitler; D Werthimer; G Q Zhang; F Y Wang; X Y Xie; Y L Yue; L Zhang; Q J Zhi; Y Zhu
Journal: Nature Date: 2021-10-13 Impact factor: 49.962

7. 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

Review 8. The physical mechanisms of fast radio bursts.

Authors: Bing Zhang
Journal: Nature Date: 2020-11-04 Impact factor: 49.962

8 in total