M. Cerruti, A. Zech, C. Boisson, G. Emery, S. Inoue, J. -P. Lenain
Published 2018-10-20Version 1
While blazars have long been one of the candidates in the search for the origin of ultra-high energy cosmic rays and astrophysical neutrinos, the BL Lac object TXS 0506+056 is the first extragalactic source that is correlated with some confidence with a high-energy neutrino event recorded with IceCube. At the time of the IceCube event, the source was found in a high state in gamma-rays with Fermi-LAT and MAGIC. We have explored in detail the parameter space of a lepto-hadronic radiative model, assuming a single emitting region inside the relativistic jet. We present the complete range of possible solutions for the physical conditions of the emitting region and its particle population. For each solution we compute the expected neutrino rate, and discuss the impact of this event on our general understanding of emission processes in blazars.
Comments: 2 pages, 1 figure. To appear in the proceedings of the SF2A 2018 meeting; this contribution summarizes the results presented in arXiv:1807.04335
Ultra-High Energy Cosmic Rays: Results and Prospects
Ultra-High Energy Cosmic Rays Detected by Auger and AGASA:Corrections for Galactic Magnetic Field Deflections, Source Populations, and Arguments for Multiple-Components
Deflections of ultra-high energy cosmic rays by the Milky Way magnetic field: how well can they be corrected?
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