Euclidean vs. non-Euclidean Gamma-Ray Bursts
Abstract
We classify gamma-ray bursts (GRBs) according to their observed durations and physical properties of their spectra. We find that long/hard bursts (of duration T90 > 2.5 s, and typical photon energy Ep > 0.8 MeV corresponding to BATSE's energy fluence hardness He32 > 3) show the strongest deviation from the three-dimensional Euclidean brightness distribution. The majority of GRBs, i.e., short bursts (T90 < 2.5 s) and long/soft bursts (with T90 > 2.5 s, and He32 < 3) show little, if any, deviations from the Euclidean distribution. These results contradict the prediction of simple extragalactic GRB models that the most distant bursts should be the most affected by cosmological energy redshift and time-dilation (long/soft GRBs). The strongly non-Euclidean GRB subclass has very hard spectra of typical photon energy above 1 MeV, i.e., outside the ideal energy range for optimal detection by BATSE. We discuss possible explanations of this puzzling feature of GRBs.
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