SGR 1935+2154

	SGR 1935+2154
Observationsdata; Epok: J2000.0
Stjärnbild	Räven
Rektascension	19t 34m 55,68s
Deklination	+21° 53′ 48,2″
Skenbar magnitud ()	?
Stjärntyp
Spektraltyp	Magnetar
Astrometri
Avstånd	ca 30 000 lå
Andra beteckningar

SGR 1935+2154 är en soft gammarepeater (SGR) (neutronstjärna med mjuk gammastrålning) som är en äldre stjärnlämning, i södra delen av stjärnbilden Räven, ursprungligen upptäckt 2014 av Swiftteleskopet.^[2] För närvarande förklaras SGR-fenomenen och de relaterade anomala röntgenpulsarerna (AXP) som härrörande från magnetarer. Den 28 april 2020 observerades denna kvarleva cirka 30 000 ljusår bort i Vintergatan vara förknippad med en mycket kraftfull radiopuls känd som en snabb radioskur eller FRB (betecknad FRB 200428),^[3] och en relaterad röntgenflare.^[4] ^[5] ^[6] Observationen är betraktad som den första FRB som upptäckts inuti Vintergatan, och den första som är kopplad till en känd källa.^[7]^[8]^[9]^[10] Senare under 2020 visade sig SGR 1935+2154 vara upphovet till upprepade snabba radioskurar.^[11]

Referenser

Den här artikeln är helt eller delvis baserad på material från engelskspråkiga Wikipedia, SGR 1935+2154, 6 juni 2023.

Noter

^ [a b c] https://simbad.cds.unistra.fr/simbad/sim-id?Ident=SGR+1935%2B2154. Hämtad 2024-02-23.
^ Cummings, J.R.; et al. (6 July 2014). "ATel #6294: Newly discovered SGR 1935+2154: Swift observations". The Astronomer's Telegram. Hämtad 27 februari 2021.
^ Zhang, S.-N.; et al. (29 April 2020). "ATel #13687: Insight-HXMT detection of a bright short x-ray counterpart of the Fast Radio Burst from SGR 1935+2154". The Astronomer's Telegram. Hämtad 4 maj 2020.
^ Drake, Nadia (5 May 2020). "'Magnetic Star' Radio Waves Could Solve the Mystery of Fast Radio Bursts - The surprise detection of a radio burst from a neutron star in our galaxy might reveal the origin of a bigger cosmological phenomenon". Scientific American. Hämtad 9 maj 2020.
^ Starr, Michelle (1 May 2020). "Exclusive: We Might Have First-Ever Detection of a Fast Radio Burst in Our Own Galaxy". ScienceAlert.com. Hämtad 1 maj 2020.
^ Scholz, Paul; et al. (28 April 2020). "ATel #13681: A bright millisecond-timescale radio burst from the direction of the Galactic magnetar SGR 1935+2154". The Astronomer's Telegram. Hämtad 1 maj 2020.
^ Hall, Shannon (11 June 2020). "A Surprise Discovery Points to the Source of Fast Radio Bursts - After a burst lit up their telescope "like a Christmas tree," astronomers were able to finally track down the source of these cosmic oddities". Quantum Magazine. Hämtad 11 juni 2020.
^ Timmer, John (4 November 2020). "We finally know what has been making fast radio bursts - Magnetars, a type of neutron star, can produce the previously enigmatic bursts". Ars Technica. Hämtad 4 november 2020.
^ Cofield, Calla; Andreoli, Calire; Reddy, Francis (4 November 2020). "NASA Missions Help Pinpoint the Source of a Unique X-ray, Radio Burst". NASA. Hämtad 4 november 2020.
^ Andersen, B.; et al. (4 November 2020). "A bright millisecond-duration radio burst from a Galactic magnetar". Nature. 587 (7832): 54–58. arXiv:2005.10324. Bibcode:2020Natur.587...54C. doi:10.1038/s41586-020-2863-y. PMID 33149292. S2CID 218763435. Hämtad 5 november 2020.
^ Starr, Michelle (16 November 2020). "It's Official: The Fast Radio Burst Coming From Within Our Galaxy Is Repeating". ScienceAlert. Hämtad 17 november 2020.

[SIMBAD-1] [a b c] https://simbad.cds.unistra.fr/simbad/sim-id?Ident=SGR+1935%2B2154. Hämtad 2024-02-23.

[A-2] Cummings, J.R.; et al. (6 July 2014). "ATel #6294: Newly discovered SGR 1935+2154: Swift observations". The Astronomer's Telegram. Hämtad 27 februari 2021.

[B-3] Zhang, S.-N.; et al. (29 April 2020). "ATel #13687: Insight-HXMT detection of a bright short x-ray counterpart of the Fast Radio Burst from SGR 1935+2154". The Astronomer's Telegram. Hämtad 4 maj 2020.

[C-4] Drake, Nadia (5 May 2020). "'Magnetic Star' Radio Waves Could Solve the Mystery of Fast Radio Bursts - The surprise detection of a radio burst from a neutron star in our galaxy might reveal the origin of a bigger cosmological phenomenon". Scientific American. Hämtad 9 maj 2020.

[D-5] Starr, Michelle (1 May 2020). "Exclusive: We Might Have First-Ever Detection of a Fast Radio Burst in Our Own Galaxy". ScienceAlert.com. Hämtad 1 maj 2020.

[E-6] Scholz, Paul; et al. (28 April 2020). "ATel #13681: A bright millisecond-timescale radio burst from the direction of the Galactic magnetar SGR 1935+2154". The Astronomer's Telegram. Hämtad 1 maj 2020.

[F-7] Hall, Shannon (11 June 2020). "A Surprise Discovery Points to the Source of Fast Radio Bursts - After a burst lit up their telescope "like a Christmas tree," astronomers were able to finally track down the source of these cosmic oddities". Quantum Magazine. Hämtad 11 juni 2020.

[G-8] Timmer, John (4 November 2020). "We finally know what has been making fast radio bursts - Magnetars, a type of neutron star, can produce the previously enigmatic bursts". Ars Technica. Hämtad 4 november 2020.

[H-9] Cofield, Calla; Andreoli, Calire; Reddy, Francis (4 November 2020). "NASA Missions Help Pinpoint the Source of a Unique X-ray, Radio Burst". NASA. Hämtad 4 november 2020.

[I-10] Andersen, B.; et al. (4 November 2020). "A bright millisecond-duration radio burst from a Galactic magnetar". Nature. 587 (7832): 54–58. arXiv:2005.10324. Bibcode:2020Natur.587...54C. doi:10.1038/s41586-020-2863-y. PMID 33149292. S2CID 218763435. Hämtad 5 november 2020.

[J-11] Starr, Michelle (16 November 2020). "It's Official: The Fast Radio Burst Coming From Within Our Galaxy Is Repeating". ScienceAlert. Hämtad 17 november 2020.

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