Delayed GeV--TeV Photons from Gamma-Ray Bursts Producing High-Energy Cosmic Rays
Abstract
A scenario in which cosmic rays (CRs) above 1020 eV are produced by cosmological gamma-ray bursts (GRBs) is consistent with observations provided that deflections by the inter-galactic magnetic field (IGMF) delay and spread the arrival time of the CRs over ≥50 yr. The energy lost by the CRs as they propagate and interact with the microwave background is transformed by cascading into secondary GeV-TeV photons. We show that a significant fraction of these photons can arrive with delays much smaller than the CR delay if much of inter-galactic space is occupied by large-scale magnetic ``voids'', regions of size 5 Mpc and field weaker than 10-15 G. Such voids might be expected, for example, in models where a weak primordial field is amplified in shocked, turbulent regions of the intergalactic medium during the formation of large-scale structure. For a field strength 4×10-11 G in the high field regions, the value required to account for observed galactic fields if the IGMF were frozen in the protogalactic plasma, the delay of CRs produced by a burst at a distance of 100 Mpc is 100 yr, and the fluence of secondary photons above 10 GeV on hour--day time scales is I(>E)10-6E TeV-1 cm-2. This fluence is close to the detection threshold of current high-energy γ-ray experiments. Detection of the delayed flux would support the GRB-CR association and would also provide information on the IGMF structure.
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