Solving the degeneracy of the lepton-flavor mixing angle thetaatm by the T2KK two detector neutrino oscillation experiment

Abstract

If the atmospheric neutrino oscillation amplitude, sin2 2thetaatm is not maximal, there is a two fold ambiguity in the neutrino parameter space: sin2 thetaatm>0.5 or sin2 thetaatm<0.5. In this article, we study the impact of this degeneracy, the so-called octant degeneracy, on the T2KK experiment, which is a proposed extension of the T2K (Tokai-to-Kaimoka) neutrino oscillation experiment with an additional water cherenkov detector placed in Korea. We find that the degeneracy between sin2 thetaatm= 0.40 and 0.60 can be resolved at the 3sigma level for sin2 2thetarct>0.12 (0.08) for the optimal combination of a 3.0circ off-axis beam (OAB) at SK (L=295km) and a 0.5circ OAB at L=1000km with a far detector of 100kton volume, after 5 years of exposure with 1.0(5.0) time 1021 POT/year, if the hierarchy is normal. We also study the influence of the octant degeneracy on the capability of T2KK experiment to determine the mass hierarchy and the leptonic CP phase. The capability of rejecting the wrong mass hierarchy grows with increasing sin2 thetaatm when the hierarchy is normal, whereas it is rather insensitive to sin2 thetaatm for the inverted hierarchy. We also find that the 1sigma allowed region of the CP phase is not affected significantly even when the octant degeneracy is not resolved. All our results are obtained for the 22.5 kton Super-Kamiokande as a near detector and without an anti-neutrino beam.

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