The nu F nu Peak Energy Distributions of Gamma-Ray Bursts Observed by BATSE

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Abstract

The majority of gamma-ray bursts exhibit a peak in their νF_ν photon energy spectra at an energy E_p that is in the range of ∼20-2000 keV available to the Large Area Detectors of the Burst and Transient Source Experiment (BATSE) on the Compton Gamma Ray Observatory. If gamma-ray burst sources are at cosmological distances (d ≳ 1 Gpc), then the spectra of dim bursts should be redshifted to lower energies relative to those of bright bursts. The magnitude of the shift is a function of the cosmological redshifts z of both the dim and bright burst sources and hence yields the range of redshift available to the bursts; this range is further constrained by considering cosmological model fits to the burst number-intensity distribution. We have produced photon energy spectra for ∼400 bursts using data from BATSE to investigate if this expected shift in the νF_ν peak is observed. We find that he mean peak energies of the burst spectra are correlated with intensity: lower intensity groups of burst spectra exhibit a lower average peak energy, although the distributions of E_p are quite wide. Denoting the redshift of an event with an observed peak photon flux P (photons cm-2 s-1) by z_p, we find that the maximum range consistent with the bursts of our sample is (1 + z₁)/(1 + z₁₀₀) = 1.86+0.36_-.24.

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