Measuring Flavor Ratios of High-Energy Astrophysical Neutrinos

Abstract

We discuss the prospects for next generation neutrino telescopes, such as IceCube, to measure the flavor ratios of high-energy astrophysical neutrinos. The expected flavor ratios at the sources are φ_e:φ_μ:φ_τ = 1:2:0, and neutrino oscillations quickly transform these to 1:1:1. The flavor ratios can be deduced from the relative rates of showers (e charged-current, most τ charged-current, and all flavors neutral-current), muon tracks (μ charged-current only), and tau lepton lollipops and double-bangs (τ charged-current only). The peak sensitivities for these interactions are at different neutrino energies, but the flavor ratios can be reliably connected by a reasonable measurement of the spectrum shape. Measurement of the astrophysical neutrino flavor ratios tests the assumed production mechanism and also provides a very long baseline test of a number of exotic scenarios, including neutrino decay, CPT violation, and small-δ m2 oscillations to sterile neutrinos.

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