Super-PINGU for measurement of the leptonic CP-phase with atmospheric neutrinos

Abstract

We explore a possibility to measure the CP-violating phase δ using multi-megaton scale ice or water Cherenkov detectors with low, (0.2 - 1) GeV, energy threshold assuming that the neutrino mass hierarchy is identified. We elaborate the relevant theoretical and phenomenological aspects of this possibility. The distributions of the μ (track) and e (cascade) events in the neutrino energy and zenith angle (E - θz) plane have been computed for different values of δ. We study properties and distinguishability of the distributions before and after smearing over the neutrino energy and zenith angle. The CP-violation effects are not washed out by smearing, and furthermore, the sensitivity to δ increases with decrease of the energy threshold. The e events contribute to the CP-sensitivity as much as the μ events. While sensitivity of PINGU to δ is low, we find that future possible upgrade, Super-PINGU, with few megaton effective volume at (0.5 - 1) GeV and e.g. after 4 years of exposure will be able to disentangle values of δ = π/2,~ π,~ 3π/2 from δ = 0 with "distinguishability" ( significance in σ's) Sσtot = (3 - 8),~ (6 - 14),~(3 - 8) correspondingly. Here the intervals of Sσtot are due to various uncertainties of detection of the low energy events, especially the flavor identification, systematics, etc. Super-PINGU can be used simultaneously for the proton decay searches.