Solar neutrino results in Super-Kamiokande-III

Abstract

The results of the third phase of the Super-Kamiokande solar neutrino measurement are presented and compared to the first and second phase results. With improved detector calibrations, a full detector simulation, and improved analysis methods, the systematic uncertainty on the total neutrino flux is estimated to be ?2.1%, which is about two thirds of the systematic uncertainty for the first phase of Super-Kamiokande. The observed 8B solar flux in the 5.0 to 20 MeV total electron energy region is 2.32+/-0.04 (stat.)+/-0.05 (sys.) *106 cm-2sec-1, in agreement with previous measurements. A combined oscillation analysis is carried out using SK-I, II, and III data, and the results are also combined with the results of other solar neutrino experiments. The best-fit oscillation parameters are obtained to be sin2 θ12 = 0.30+0.02-0.01(tan2 θ12 = 0.42+0.04 -0.02) and m221 = 6.2+1.1-1.9 *10-5eV2. Combined with KamLAND results, the best-fit oscillation parameters are found to be sin2 θ12 = 0.31+/-0.01(tan2 θ12 = 0.44+/-0.03) and m221 = 7.6?0.2*10-5eV2 . The 8B neutrino flux obtained from global solar neutrino experiments is 5.3+/-0.2(stat.+sys.)*106cm-2s-1, while the 8B flux becomes 5.1+/-0.1(stat.+sys.)*106cm-2s-1 by adding KamLAND result. In a three-flavor analysis combining all solar neutrino experiments, the upper limit of sin2 θ13 is 0.060 at 95% C.L.. After combination with KamLAND results, the upper limit of sin2 θ13 is found to be 0.059 at 95% C.L..