Abstract
We present a systematic study on magnetic fields in gamma-ray burst (GRB) external forward shocks (FSs). There are 60 (35) GRBs in our X-ray (optical) sample, mostly from Swift. We use two methods to study ε B (fraction of energy in magnetic field in the FS): (1) for the X-ray sample, we use the constraint that the observed flux at the end of the steep decline is ≥ X-ray FS flux; (2) for the optical sample, we use the condition that the observed flux arises from the FS (optical sample light curves decline as t -1, as expected for the FS). Making a reasonable assumption on E (jet isotropic equivalent kinetic energy), we converted these conditions into an upper limit (measurement) on ε B n 2/(p + 1) for our X-ray (optical) sample, where n is the circumburst density and p is the electron index. Taking n = 1 cm-3, the distribution of ε B measurements (upper limits) for our optical (X-ray) sample has a range of 10-8-10-3 (10-6-10-3) and median of few × 10-5 (few × 10-5). To characterize how much amplification is needed, beyond shock compression of a seed magnetic field 10 μG, we expressed our results in terms of an amplification factor, AF, which is very weakly dependent on n (AFn 0.21). The range of AF measurements (upper limits) for our optical (X-ray) sample is 1-1000 (10-300) with a median of 50 (50). These results suggest that some amplification, in addition to shock compression, is needed to explain the afterglow observations. © 2014. The American Astronomical Society. All rights reserved..
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Santana, R., Barniol Duran, R., & Kumar, P. (2014). Magnetic fields in relativistic collisionless shocks. Astrophysical Journal, 785(1). https://doi.org/10.1088/0004-637X/785/1/29
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