A Spectral Analysis of Fermi-LLE GRBs

Abstract

The prompt emission of gamma-ray bursts remains mysterious since the mechanism is difficult to understand even though there are much more observations with the development of detection technology. But most of the gamma-ray bursts spectra show the Band shape, which consists of the low energy spectral index α, the high energy spectral index β, the peak energy Ep and the normalization of the spectrum. We present a systematic analysis of the spectral properties of 36 GRBs, which were detected by the Gamma-ray Burst Monitor (GBM), simultaneously, were also observed by the Large Area Telescope (LAT) and the LAT Low Energy (LLE) detector on the Fermi satellite. We performed the detailed time-resolved spectral analysis for all of the bursts in our sample. We found that the time-resolved spectrum at peak flux can be well fitted by the empirical Band function for each burst in our sample. Moreover, the evolution patterns of α and Ep have been carried for statistical analysis, and the parameter correlations have been obtained such as Ep-F, α-F, and Ep- α, all of them are presented by performing the detailed time-resolved spectral analysis. We also demonstrated that the two strong positive correlations α-F and Ep-α for some bursts originate from a non-physical selection effects through simulation.