Solar neutrinos: global analysis with day and night spectra from SNO
Abstract
We perform global analysis of the solar neutrino data including the day and night spectra of events at SNO. In the context of two active neutrino mixing, the best fit of the data is provided by the LMA MSW solution with Delta m2 = 6.15 10-5 eV2, tan2θ = 0.41, fB = 1.05, where fB is the boron neutrino flux in units of the corresponding flux in the Standard Solar Model (SSM). At 3 sigma level we find the following upper bounds: tan2θ < 0.84 and Delta m2 < 3.6 10-4 eV2. From 1 sigma-interval we expect the day-night asymmetries of the charged current and electron scattering events to be: ADNCC = 3.9 +3.6-2.9 and ADNES = 2.1 +2.1-1.4. The only other solution which appears at 3 sigma-level is the VAC solution with Delta m2 = 4.5 10-10 eV2, tan2θ = 2.1 and fB=0.75. The best fit point in the LOW region, with Delta m2 = 0.93 10-7 eV2 and tan2θ = 0.64, is accepted at 99.95% (3.5 sigma) C.L. . The least chi2 point from the SMA solution region, with Delta m2 = 4.6 10-6 eV2 and tan2θ = 5 10-4, could be accepted at 5.5 sigma-level only. In the three neutrino context the influence of theta13 is studied. We find that with increase of theta13 the LMA best fit point shifts to larger Delta m2, mixing angle is practically unchanged, and the quality of the fit becomes worse. The fits of LOW and SMA slightly improve. Predictions for KamLAND experiment (total rates, spectrum distortion) have been calculated.
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