Spectroscopic Analysis of GRB 060526 (original) (raw)
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Explaining the High-Energy Spectral Component in GRB 941017
The Astrophysical Journal, 2003
The gamma-ray burst (GRB) of October 17, 1994 (941017), showed a distinct high energy spectral component extending from a few MeV to 200 MeV, in addition to the typical GRB emission which peaked at a few hundred keV. The high energy component carried at least ∼ 3 times more energy than the lower energy component. It displayed an almost constant flux with a rather hard spectrum (F ν ∝ ν -α with α ∼ 0) from 20 s into the burst up to ∼ 200 s, while the duration of the GRB, where 90% of the energy in the softer component was emitted, was only 77 s. Such a high energy component was seen in only one out of ∼ 30 GRBs in which a similar component could have been detected, and thus appears to be quite rare. We examine possible explanations for this high energy spectral component and find that most models fail. The only emission region that provides the right temporal behavior is the reverse shock that goes into the GRB ejecta as it is decelerated by the ambient medium, or possibly the very early forward shock while the reverse shock is still going on. The best candidate for the emission mechanism is synchrotron self-Compton emission from the reverse shock. Even in this model the most natural spectral slope is only marginally consistent with the observed value, and some degree of fine tuning is required in order to get a spectral slope closer to the observed value. This might suggest that an additional or alternative emission mechanism from the reverse shock is at work here. A prediction of this interpretation is that such a high energy component should be accompanied by a bright optical transient, similar to the one observed in GRB 990123.
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