| Literature DB >> 16208364 |
J S Villasenor1, D Q Lamb, G R Ricker, J-L Atteia, N Kawai, N Butler, Y Nakagawa, J G Jernigan, M Boer, G B Crew, T Q Donaghy, J Doty, E E Fenimore, M Galassi, C Graziani, K Hurley, A Levine, F Martel, M Matsuoka, J-F Olive, G Prigozhin, T Sakamoto, Y Shirasaki, M Suzuki, T Tamagawa, R Vanderspek, S E Woosley, A Yoshida, J Braga, R Manchanda, G Pizzichini, K Takagishi, M Yamauchi.
Abstract
Gamma-ray bursts (GRBs) fall into two classes: short-hard and long-soft bursts. The latter are now known to have X-ray and optical afterglows, to occur at cosmological distances in star-forming galaxies, and to be associated with the explosion of massive stars. In contrast, the distance scale, the energy scale and the progenitors of the short bursts have remained a mystery. Here we report the discovery of a short-hard burst whose accurate localization has led to follow-up observations that have identified the X-ray afterglow and (for the first time) the optical afterglow of a short-hard burst; this in turn led to the identification of the host galaxy of the burst as a late-type galaxy at z = 0.16 (ref. 10). These results show that at least some short-hard bursts occur at cosmological distances in the outskirts of galaxies, and are likely to be caused by the merging of compact binaries.Year: 2005 PMID: 16208364 DOI: 10.1038/nature04213
Source DB: PubMed Journal: Nature ISSN: 0028-0836 Impact factor: 49.962