Kohta Murase, Kunihito Ioka
We study high-energy neutrino production in collimated jets inside progenitors of gamma-ray bursts (GRBs) and supernovae, considering both collimation and internal shocks. We obtain simple, useful constraints, using the often overlooked point that shock acceleration of particles is ineffective at radiation-mediated shocks. Classical GRBs may be too powerful to produce neutrinos inside stars, which is consistent with IceCube non-detections. We find that ultra-long GRBs avoid such constraints and detecting the TeV signal will support giant progenitors. Low-power GRB classes including low-luminosity GRBs can contribute to the diffuse neutrino background that IceCube may detect, with a spectral steepening around PeV. The models can be tested with future GRB monitors.
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http://arxiv.org/abs/1306.2274
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