Probing neutrino parameters with a Two-Baseline Beta-beam set-up

Abstract

We discuss the prospects of exploring the neutrino mass parameters with a CERN based Beta-beam experiment using two different detectors at two different baselines. The proposed set-up consists of a 50 kton iron calorimeter (ICAL) at a baseline of around 7150 km which is roughly the magic baseline, e.g., ICAL@INO, and a 50 kton Totally Active Scintillator Detector at a distance of 730 km, e.g., at Gran Sasso. We take 8B and 8Li source ions with a boost factor γ of 650 for the magic baseline while for the closer detector we consider 18Ne and 6He ions with a range of Lorentz boosts. We find that the locations of the two detectors complement each other leading to an exceptional high sensitivity. With γ=650 for 8B/8Li and γ=575 for 18Ne/6He and total luminosity corresponding to 5× (1.1× 1019) and 5× (2.9× 1019) useful ion decays in neutrino and antineutrino modes respectively, we find that the two-detector set-up can probe maximal CP violation and establish the neutrino mass ordering if 22θ13 is 1.8 × 10-5 and 4.6 × 10-5, respectively, or more. The sensitivity reach for 22θ13 itself is 5.3 × 10-5. CP violation can be discovered for 64% of the possible δCP values for 22θ13 ≥ 8× 10-5.