Fermi/GBM and BATSE gamma-ray bursts: Comparison of the spectral properties

Abstract

The Gamma-ray Burst Monitor (GBM) on boardFermiallows us to study the spectra of gamma-ray bursts (GRBs) over an unprecedented wide energy range (8keV-35 MeV). We compare the spectral properties of short and long GRBs detected by the GBM (up to 2010 March) with those of GRBs detected by the Burst And Transient Source Experiment (BATSE) on board theCompton Gamma Ray Observatory(CGRO). GBM and BATSE long bursts have similar distributions of fluence (F),Eobspeak and peak flux (P) but GBM bursts have a slightly harder low-energy spectral index α with respect to BATSE GRBs. GBM and BATSE short bursts have similar distributions of fluence, α and peak flux, with GBM bursts having slightly largerEobspeak. We discuss these properties in light of the correlations found betweenEobspeak and the fluence and the peak flux. GBM bursts confirm that these correlations are not determined by instrumental selection effects. Indeed, GBM bursts extend theEobspeak-FandEobspeak-Pcorrelations both in fluence/peak flux and in peak energy. No GBM long burst withEobspeak exceeding a few MeV is found, despite the possibility of detecting it. Similarly to what is found with BATSE, there are 3 per cent of GBM long bursts (and almost all short ones) that are outliers at more than 3σ of theEpeak-Eiso correlation. In contrast, there is no outlier of theEpeak-Liso correlation, for both long and short GBM bursts. © 2011 The Authors Monthly Notices of the Royal Astronomical Society © 2011 RAS.