An external-shock origin of the Ep-Egamma relation for Gamma-Ray Bursts

Abstract

We investigate the possibility that the Ep propto Egamma1/2 relation between the peak energy Ep of the nuFnu spectrum and energy output Egamma for long-duration GRBs arises from the external shock produced by the interaction of a relativistic outflow with the ambient medium. To that aim, we take into account the dependence of all parameters which determine Ep and Egamma on the radial distribution of the ambient medium density and find that the Ep-Egamma relation can be explained if the medium around GRBs has a universal radial stratification. For various combinations of GRB radiative process (synchrotron or inverse-Compton) and dissipation mechanism (reverse or forward shock), we find that the circumburst medium must have a particle density with a radial distribution different than the R-2 expected for constant mass-loss rate and terminal speed.