Speaker
Description
While IceCube’s detection of astrophysical neutrinos at energies up to a few PeV has opened a new window to our Universe, much remains to be discovered regarding these neutrinos’ origin and nature. In particular, the difficulty of differentiating electron- and tau-neutrino charged-current (CC) events limits our ability to measure precisely the flavor ratio of this flux. The Tau Air-Shower Mountain-Based Observatory (TAMBO) is a next-generation neutrino observatory capable of producing a high-purity sample of tau-neutrino CC events in the energy range from 1-100 PeV, i.e. just above the IceCube measurements. An array of water Cherenkov tanks and plastic scintillators deployed in the Colca Canyon will observe the air-shower produced when a tau lepton, produced in a tau-neutrino CC interaction, emerges from the opposite face and decays in the air. In this contribution, I will present the performance studies for TAMBO—including the expected rates, effective areas, and discrimination potential—as well as the simulation on which these studies are based.
| Collaboration(s) | TAMBO |
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