Astron. Astrophys. Suppl. Ser. 138, 421-422
J.-L. Atteia1 - M. Boër1 - K. Hurley2
Send offprint request: J-L. Atteia
1 - Centre d'Étude Spatiale des Rayonnements, CNRS/UPS,
BP. 4346, 31028 Toulouse Cedex 4, France
e-mail: atteia@cesr.fr, boer@cesr.fr
2 -
University of California at Berkeley,
Space Sciences Laboratory,
Berkeley, CA 94720-7450, U.S.A.
e-mail: khurley@sunspot.ssl.berkeley.edu
Received January 21; accepted May 28, 1999
Observations of gamma-ray burst afterglows have shown that these events come from formidable explosions at cosmological distances. If the most distant GRBs seen by BATSE have redshifts of the order of 3-6 (e.g. GB 971214), it is a coincidence that the bright end of the GRB intensity distribution displays the -3/2 slope expected for a Euclidean distribution of sources. We analyze nearly 10 years of continuous observation of bright GRBs with ULYSSES, in order to constrain their intensity distribution. This extensive dataset (more than 200 bursts in the "Euclidean'' part of the curve) is used to quantify the agreement of the data with the canonical slope of -3/2.
Key words: gamma-rays: bursts
Copyright The European Southern Observatory (ESO)