The role of τ ultrahigh energy astrophysics in Km3 detectors

Abstract

We show that the expected τ signals, by their secondary tau tracks, in Km3 detectors at highest cosmic ray energy window 1.7· 1021 eV Eτ 1.6 x 1017 eV, must overcome the corresponding μ (or muonic) ones. Indeed, the Lorentz-boosted tau range length grows (linearly) above muon range, for Eτ 1.6 x 108 GeV and reaches its maxima extension, Rτ 191 km, at energy Eτ 3.8 x 109 GeV. At this peak the tau range is nearly 20 times the corresponding muon range (at the same energy) implying a similar ratio in τ over μ detectability. This dominance, however may lead (at present most abundant τ model fluxes) to just a rare spectacular event a year (if flavor mixing occurs). Lower energetic τ and τ signals (e e τ τ, τ N ...) at energy range ( 105 107 GeV) may be more easily observed in km3 detectors at a rate of a few (e e τ τ) to tens event (τ N τ + anything) a year.

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