Constraining Emission Mechanisms in Gamma-Ray Bursts using Spectral Width
M. Axelsson
L. Borgonovo
Abstract:
The emission processes active in the highly relativistic jets of gamma-ray bursts (GRBs) remain unknown. The spectra are usually well-fit by the Band function, an empirically motivated smoothly-broken power law, yet this gives little understanding of the underlying radiation mechanisms. In this presentation we propose a new measure to describe spectra: the width of the EFE spectrum, a quantity dependent only on finding a good fit to the data. We apply this to the full sample of peak flux GRB spectra observed by CGRO/BATSE combined with the 2nd Fermi/GBM catalog. The results from the two instruments are fully consistent. We find that 78% of long GRBs and 85% of short GRBs cannot be explained by standard slow cooling synchrotron from a Maxwellian distribution of electrons, and almost half the spectra are more narrow than monoenergetic synchrotron. Conversely, photospheric emission can explain the spectra if mechanisms are invoked to give a spectrum much broader than a blackbody. We further find that the median widths of spectra from long and short GRBs are significantly different, and this is thus a new, independent distinction between the two classes. We will discuss the implications of these results and the constraints they place on possible emission mechanisms.
- Curator: J.D. Myers
- NASA Official: Phil Newman
- Science Official: Elizabeth Hays
- › Privacy Policy and Important Notices
- › Contact NASA
- › Fermi FAQ, Comments, Feedback
- › Page Last Updated: Thu, Oct 15, 2015