DUNE as the Next-Generation Solar Neutrino Experiment

Abstract

We show that the Deep Underground Neutrino Experiment (DUNE), with significant but feasible new efforts, has the potential to deliver world-leading results in solar neutrinos. With a 100 kton-year exposure, DUNE could detect 105 signal events above 5 MeV electron energy. Separate precision measurements of neutrino-mixing parameters and the 8B flux could be made using two detection channels (e + \, 40Ar and e,μ,τ + e-) and the day-night effect (> 10 σ). New particle physics may be revealed through the comparison of solar neutrinos (with matter effects) and reactor neutrinos (without), which is discrepant by 2 σ (and could become 5.6 σ). New astrophysics may be revealed through the most precise measurement of the 8B flux (to 2.5\%) and the first detection of the hep flux (to 11\%). DUNE is required: No other experiment, even proposed, has been shown capable of fully realizing these discovery opportunities.