The effect of magnetic fields on γ-ray bursts inferred from multi-wavelength observations of the burst of 23 January 1999

Gamma-ray bursts (GRBs) are thought to arise when an extremely relativistic outflow of particles from a massive explosion (the nature of which is still unclear) interacts with material surrounding the site of the explosion. Observations of the evolving changes in emission at many wavelengths allow u...

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Bibliographic Details
Published in:Nature (London) 1999-04, Vol.398 (6726), p.394-399
Main Authors: Galama, T. J, Briggs, M. S, Wijers, R. A. M. J, Vreeswijk, P. M, Rol, E, Band, D, Paradijs, J. van, Kouveliotou, C, Preece, R. D, Bremer, M, Smith, I. A, Tilanus, R. P. J, Bruyn, A. G. de, Strom, R. G, Pooley, G, Castro-Tirado, A. J, Tanvir, N, Robinson, C, Hurley, K, Heise, J, Telting, J, Rutten, R. G. M, Packham, C, Swaters, R, Davies, J. K, Fassia, A, Green, S. F, Foster, M. J, Sagar, R, Pandey, A. K, Nilakshi, Yadav, R. K. S, Ofek, E. O, Leibowitz, E, Ibbetson, P, Rhoads, J, Falco, E, Petry, C, Impey, C, Geballe, T. R, Bhattacharya, D
Format: Article
Language:English
Subjects:
Afterglows
Astronomy
Bursts
Earth, ocean, space
Exact sciences and technology
Explosions
Fireballs
Gamma ray bursts
Gamma rays
Gamma-ray sources
gamma-ray bursts
Humanities and Social Sciences
Infrared
Magnetic fields
Magnetism
multidisciplinary
Radio emission
Science
Science (multidisciplinary)
Stellar systems. Galactic and extragalactic objects and systems. The universe
Unidentified sources and radiation outside the solar system
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Summary:Gamma-ray bursts (GRBs) are thought to arise when an extremely relativistic outflow of particles from a massive explosion (the nature of which is still unclear) interacts with material surrounding the site of the explosion. Observations of the evolving changes in emission at many wavelengths allow us to investigate the origin of the photons, and so potentially determine the nature of the explosion. Here we report the results of γ-ray, optical, infrared, submillimetre, millimetre and radio observations of the burst GRB990123 and its afterglow. Our interpretation of the data indicates that the initial and afterglow emissions are associated with three distinct regions in the fireball. The peak flux of the afterglow, one day after the burst, has a lower frequency than observed for other bursts; this explains the short-lived radio emission. We suggest that the differences between bursts reflect variations in the magnetic-field strength in the afterglow-emitting regions.
ISSN:0028-0836
1476-4687
DOI:10.1038/18828