Neutrino interactions at few MeV: results from Borexino at Gran Sasso

Borexino, at the I.N.F.N. Gran Sasso Underground Laboratory in Italy, is an experiment designed to detect, in real-time, low energy solar neutrinos. After a brief presentation of the Borexino physics and detector, we illustrate some recent results and their physics implications. Borexino perspectives are also discussed

Improved measurement of 8B solar neutrinos with 1.5 kt y of Borexino exposure

We report on an improved measurement of the $^8$B solar neutrino interaction rate with the Borexino detector at the Laboratori Nazionali del Gran Sasso. Neutrinos are detected via their elastic scattering on electrons in a large, radio-pure liquid scintillator target. Novel analysis approaches exploiting most of the active volume of the detector have enabled the collection of data from 1.5 kt$\cdot$y exposure between 2008 and 2016. The measured rate of solar neutrino-induced, scattered electrons above 3 MeV of energy is $0.220\substack{+0.015 \\ -0.016}\,(stat)\,\substack{+0.006 \\ -0.006}\,(syst)$~cpd/100~t, which corresponds to an observed solar neutrino flux assuming no neutrino flavor conversion of 2.55$\substack{+0.17 \\ -0.19}(stat)\substack{+0.07\\ -0.07}(syst)\times$10$^6$~cm$^{-2}\,$s$^{-1}$. If one assumes the $^8$B solar neutrino flux predicted by the high metallicity Standard Solar Model, the average $^8$B solar $\nu_e$ survival probability is 0.36$\pm$0.08 at the mean visible energy of 7.9~MeV, in good agreement with the MSW-LM