The Energetics and Environment of the Short-GRB Afterglows 050709 and 050724
Abstract
We use the available radio, optical and X-ray measurements for the afterglows of the short bursts 050709 and 050724 to constrain the blast-wave energy, its collimation and the density of the circumburst medium. For GRB 050709 (whose duration was 0.07 s), we identify two models: i) a high-density solution, where the ejecta are collimated in a jet of half-angle thetajet > 6 deg and interact with a medium of particle density 10-4/cc < n < 0.1/cc, and ii) a low-density solution with thetajet > 2 deg and n < 10-5/cc. These density ranges are compatible with those expected in the vicinity of the host galaxy and in the intergalactic medium, lending support to the hypothesis that the progenitor of GRB 050907 is a NS-NS or NS-BH merger. For GRB 050724 (which last 3 s), we obtain 0.1/cc < n < 1000/cc and thetajet > 8 deg. The range of allowed densities shows that this burst occurred in the intragalactic environment. The dynamical parameters of the high-density model for the GRB afterglow 050709 are similar to those for 050724. If these parameters are representative for short-GRB outflows, then these jets are less collimated and have a lower kinetic energy than those of long bursts, which suggests that GRB jets are not magnetically collimated and are powered by the gravitational energy of the torus. Evidently, the analysis of more short-GRB afterglows is required for a more robust conclusion.
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