CNO Solar Neutrinos in Next-Generation Dark Matter Experiments

Abstract

We study the prospects for measuring the low-energy components of the solar neutrino flux in future direct dark matter detection experiments. We show that for a depletion of 136Xe by a factor of 100 relative to its natural abundance, and an extension to electron recoil energies of MeV, future xenon experiments with exposure 200 ton-yr can detect the CNO component of the solar neutrino flux at 3 σ significance. A CNO detection will provide important insight into metallicity of the solar interior. Precise measurement of low-energy solar neutrinos, including as pp, 7Be, and pep components, will further improve constraints on the "neutrino luminosity" of the Sun, thereby providing constraints on alternative sources of energy production. We find that a measurement of L/L of order one percent is possible with the above exposure, improving on current bounds from a global analysis of solar neutrino data by a factor of about seven.