Measurement of the 8B Solar Neutrino Flux Using the Full SNO+ Water Phase Dataset

Abstract

The SNO+ detector operated initially as a water Cherenkov detector. The implementation of a sealed covergas system midway through water data taking resulted in a significant reduction in the activity of 222Rn daughters in the detector and allowed the lowest background to the solar electron scattering signal above 5 MeV achieved to date. This paper reports an updated SNO+ water phase 8B solar neutrino analysis with a total livetime of 282.4 days and an analysis threshold of 3.5 MeV. The 8B solar neutrino flux is found to be (2.32+0.18-0.17(stat.)+0.07-0.05(syst.))×106 cm-2s-1 assuming no neutrino oscillations, or (5.36+0.41-0.39(stat.)+0.17-0.16(syst.) )×106 cm-2s-1 assuming standard neutrino oscillation parameters, in good agreement with both previous measurements and Standard Solar Model Calculations. The electron recoil spectrum is presented above 3.5 MeV.

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