Recoilless Resonant Absorption of Monochromatic Neutrino Beam for Measuring Delta m231 and theta13

Abstract

We discuss, in the context of precision measurement of Delta m231 and theta13, physics capabilities enabled by the recoilless resonant absorption of monochromatic antineutrino beam enhanced by the M\"ossbauer effect recently proposed by Raghavan. Under the assumption of small relative systematic error of a few tenth of percent level between measurement at different detector locations, we give analytical and numerical estimates of the sensitivities to Delta m231 and sin2 2theta13. The accuracies of determination of them are enormous; The fractional uncertainty in Delta m231 achievable by 10 point measurement is 0.6% (2.4%) for sin2 2theta13 = 0.05, and the uncertainty of sin2 2theta13 is 0.002 (0.008) both at 1 sigma CL with the optimistic (pessimistic) assumption of systematic error of 0.2% (1%). The former opens a new possibility of determining the neutrino mass hierarchy by comparing the measured value of Delta m231 with the one by accelerator experiments, while the latter will help resolving the theta23 octant degeneracy.

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