Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 700, Issue 2, Pages L65-L68Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/700/2/L65
Keywords
gamma rays: bursts; gamma rays: observations; gamma rays: theory; plasmas; radiation mechanisms: non-thermal; radiation mechanisms: thermal
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Funding
- NASA [NNG05GB67G, NNX08AN24G, NNX08AE57A]
- Space Telescope Science Institute
- NASA [NNX08AN24G, 102264, NNX08AE57A, 97944] Funding Source: Federal RePORTER
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The composition of gamma-ray burst (GRB) ejecta is still a mystery. The standard model invokes an initially hot fireball composed of baryonic matter. Here, we analyze the broadband spectra of GRB 080916C detected by the Fermi satellite. The featureless Band spectrum of all five epochs as well as the detections of greater than or similar to 10 GeV photons in this burst place a strong constraint on the prompt emission radius R., which is typically greater than or similar to 10(15) cm, independent of the details of the emission process. The lack of detection of a thermal component as predicted by the baryonic models strongly suggests that a significant fraction of the outflow energy is initially not in the fireball form, but is likely in a Poynting flux entrained with the baryonic matter. The ratio between the Poynting and baryonic fluxes is at least similar to(15-20) at the photosphere radius, if the Poynting flux is not directly converted to kinetic energy below the photosphere.
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