Gamma-ray bursts from magnetized collisionally heated jets

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Abstract

Jets producing gamma-ray bursts (GRBs) are likely to carry a neutron component that drifts with respect to the proton component. The neutron-proton collisions strongly heat the jet and generate electron-positron pairs. We investigate radiation produced by this heating using a new numerical code. Our results confirm the recent claim that collisional heating generates the observed Band-type spectrum of GRBs. We extend the model to study the effects of magnetic fields on the emitted spectrum. We find that the spectrum peak remains near 1MeV for the entire range of the magnetization parameter 0 < εB < 2 that is explored in our simulations. The low-energy part of the spectrum softens with increasing εB, and a visible soft excess appears in the keV band. The high-energy part of the spectrum extends well above the GeV range and can contribute to the prompt emission observed by Fermi/LAT. Overall, the radiation spectrum created by the collisional mechanism appears to agree with observations, with no fine tuning of parameters. © 2011. The American Astronomical Society. All rights reserved.

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Vurm, I., Beloborodov, A. M., & Poutanen, J. (2011). Gamma-ray bursts from magnetized collisionally heated jets. Astrophysical Journal, 738(1). https://doi.org/10.1088/0004-637X/738/1/77

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