High Precision Measurements of θ in Solar and Reactor Neutrino Experiments

Abstract

We discuss the possibilities of high precision measurement of the solar neutrino mixing angle θ θ12 in solar and reactor neutrino experiments. The improvements in the determination of 2θ12, which can be achieved with the expected increase of statistics and reduction of systematic errors in the currently operating solar and KamLAND experiments, are summarised. The potential of LowNu -e elastic scattering experiment, designed to measure the pp solar neutrino flux, for high precision determination of 2θ12, is investigated in detail. The accuracy in the measurement of 2θ12, which can be achieved in a reactor experiment with a baseline L (50-70) km, corresponding to a Survival Probability MINimum (SPMIN), is thoroughly studied. We include the effect of the uncertainty in the value of 2θ13 in the analyses. A LowNu measurement of the pp neutrino flux with a 1% error would allow to determine 2θ12 with an error of 14% (17%) at 3σ from a two-generation (three-generation) analysis. The same parameter 2θ12 can be measured with an uncertainty of 2% (6%) at 1σ (3σ) in a reactor experiment with L 60 km, statistics of 60 GWkTy and systematic error of 2%. For the same statistics, the increase of the systematic error from 2% to 5% leads to an increase in the uncertainty in 2θ12 from 6% to 9% at 3σ. The inclusion of the 2θ13 uncertainty in the analysis changes the error on 2θ12 to 3% (9%). The effect of 2θ13 uncertainty on the 2θ12 measurement in both types of experiments is considerably smaller than naively expected.

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