A fast radio burst associated with a Galactic magnetar.
Christopher D. Bochenek,Vikram Ravi,Konstantin Belov,Gregg Hallinan,Jonathon Kocz,Jonathon Kocz,Shri Kulkarni,D. McKenna +7 more
TLDR
A millisecond-duration radio burst from the Galactic magnetar SGR-1935+2154 with a fluence of 1.5 ± 0.3 megajansky milliseconds was detected by the STARE2 radio array in the 1,281-1,468 megahertz band.Abstract:
Since their discovery in 20071, much effort has been devoted to uncovering the sources of the extragalactic, millisecond-duration fast radio bursts (FRBs)2. A class of neutron stars known as magnetars is a leading candidate source of FRBs3,4. Magnetars have surface magnetic fields in excess of 1014 gauss, the decay of which powers a range of high-energy phenomena5. Here we report observations of a millisecond-duration radio burst from the Galactic magnetar SGR 1935+2154, with a fluence of 1.5 ± 0.3 megajansky milliseconds. This event, FRB 200428 (ST 200428A), was detected on 28 April 2020 by the STARE2 radio array6 in the 1,281–1,468 megahertz band. The isotropic-equivalent energy released in FRB 200428 is 4 × 103 times greater than that of any radio pulse from the Crab pulsar—previously the source of the brightest Galactic radio bursts observed on similar timescales7. FRB 200428 is just 30 times less energetic than the weakest extragalactic FRB observed so far8, and is drawn from the same population as the observed FRB sample. The coincidence of FRB 200428 with an X-ray burst9–11 favours emission models that describe synchrotron masers or electromagnetic pulses powered by magnetar bursts and giant flares3,4,12,13. The discovery of FRB 200428 implies that active magnetars such as SGR 1935+2154 can produce FRBs at extragalactic distances. Observations of the fast radio burst FRB 200428 coinciding with X-rays from the Galactic magnetar SGR 1935+2154 indicate that active magnetars can produce fast radio bursts at extragalactic distances.read more
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Journal ArticleDOI
Primordial magnetic fields in theories of gravity with non-minimal coupling between curvature and matter
TL;DR: In this article , it is shown that for general slow-roll inflationary scenarios with low reheating temperatures, the generated magnetic fields can be made compatible with observations at large scales.
Journal ArticleDOI
The Fast Radio Burst-emitting Magnetar SGR 1935+2154—Proper Motion and Variability from Long-term Hubble Space Telescope Monitoring
TL;DR: In this article , the magnetar SGR 1935+2154 was observed by the Hubble Space Telescope (HST) near-infrared (NIR) observations from 2021 June, approximately 6 yr after the first HST observations, a year after the discovery of fast-radio-burst-like emission from the source, and in a period of exceptional high-frequency activity.
Journal ArticleDOI
Magnetar Bursts Due to Alfvén Wave Nonlinear Breakout
Yajie Yuan,Andrei M. Beloborodov,Alexander Y. Chen,Yuri Levin,Elias R. Most,Alexander Philippov +5 more
TL;DR: In this paper , it was shown that the most common form of magnetar activity is short X-ray bursts, with durations from milliseconds to seconds, and luminosities ranging from 1036-1043 erg s−1.
Journal ArticleDOI
OUP accepted manuscript
TL;DR: MeerTRAP as discussed by the authors is a real-time untargeted search project using the MeerKAT telescope to find single pulses from fast radio transients and pulsars.
Journal ArticleDOI
Search For Long-Duration Gravitational-Wave Signals Associated With Magnetar Giant Flares
A. Macquet,Marie-Anne Bizouard,Eric Burns,Nelson Christensen,Michael W. Coughlin,Zorawar Wadiasingh,George Younes +6 more
TL;DR: In this paper, the authors revisited the possible emission of gravitational waves from four magnetar giant flares within 5 Mpc and discussed the future prospects of detecting signals with more sensitive gravitational-wave detectors.
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