Hierarchy independent sensitivity to leptonic δCP with atmospheric neutrinos

Abstract

The Dirac leptonic CP phase δCP is one of the crucial unknown parameters in neutrino oscillation physics. In this paper we explore the possibility of using low energy atmospheric neutrino events to probe δCP . We show that at sub GeV energies, when the events are binned as a function of the energy and direction of the final state leptons, a consistent distinction between various true δCP values is obtained. We also show that at these energies there is no sensitivity to the mass ordering/hierarchy, so that δCP can be measured without hierarchy ambiguity. In addition a preliminary hi2 analysis of the sensitivity to δCP using atmospheric neutrinos assuming a generic detector with perfect separation between charged current μ , μ , e and e events is given.