Alessandro De Angelis, Giorgio Galanti, Marco Roncadelli
Using the most recent observational data concerning the Extragalactic Background Light and the Radio Background, for a source at an arbitrary redshift in the range 10^-6 < z_s < 3 we compute the energy E_0 of an observed gamma-ray photon in the range 10 GeV < E_0 < 10^13 GeV such that the resulting optical depth tau_gamma(E_0,z_s) takes the values 1, 2, 3 and 4.6, corresponding to an observed flux dimming of e^-1 = 0.37, e^-2 = 0.14, e^-3 = 0.05 and e^-4.6 = 0.01, respectively. Below z_s = 10^-6 we find that tau_gamma(E_0,z_s) < 1 for any value of E_0. In the limiting case of a local Universe (z_s = 0) we compare our result with the one derived in 1997 by Coppi and Aharonian. The present achievement is of paramount relevance for the planned ground-based detectors like CTA, HAWC and HiSCORE.
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http://arxiv.org/abs/1302.6460
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