Measuring the CP-violating phase by a long base-line neutrino experiment with Hyper-Kamiokande
Abstract
We study the sensitivity of a long-base-line (LBL) experiment with neutrino beams from the High Intensity Proton Accelerator (HIPA), that delivers 1021 POT per year, and a proposed 1Mt water-Cherenkov detector, Hyper-Kamiokande (HK) 295km away from the HIPA, to the CP phase (deltaM N S) of the three-flavor lepton mixing matrix. We examine a combination of the numu narrow-band beam (NBB) at two different energies, vevppi=2, 3GeV, and the barnumu NBB at vevppi=2GeV. By allocating one year each for the two numu beams and four years for the barnumu beam, we can efficiently measure the numu to nue and barnumu to barnue transition probabilities, as well as the numu and barnumu survival probabilities. CP violation in the lepton sector can be established at 4sigma (3sigma) level if the MSW large-mixing-angle scenario of the solar-neutrino deficit is realized, || or |deltaM N S-180circ| > 30circ, and if 4|Ue3|2 (1-|Ue3|2) equiv sin2 2 thetaCHOOZ > 0.03 (0.01). The phase deltaM N S is more difficult to constrain by this experiment if there is little CP violation, deltaM N S sim 0circ or 180circ, which can be distinguished at 1sigma level if sin2 2 thetaCHOOZ >~ 0.01.
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