E. Berger, R. Sari, D. A. Frail, S. R. Kulkarni
Published 2001-12-29Version 1
Observations of GRB afterglows ranging from radio to X-ray frequencies generate large data sets. Careful analysis of these broad-band data can give us insight into the nature of the GRB progenitor population by yielding such information like the total energy of the burst, the geometry of the fireball and the type of environment into which the GRB explodes. We illustrate, by example, how global, self-consistent fits are a robust approach for characterizing the afterglow emission. This approach allows a relatively simple comparison of different models and a way to determine the strengths and weaknesses of these models, since all are treated self-consistently. Here we quantify the main differences between the broad-band, self-consistent approach and the traditional approach, using GRB000301C and GRB970508 as test cases.
Comments: Appears in "Gamma-Ray Bursts in the Afterglow Era" proceedings of the Roma 2000 GRB Workshop; 3 pages; 2 figures
Journal: Gamma-Ray Bursts in the Afterglow Era: Rome Workshop. Costa, E., Frontera, F., and Hjorth, J. eds. ESO Astrophysics Symposia. Springer-Verlag (Berlin), 2001
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