Experimental Constraints on Four-Neutrino Mixing
Carlo Giunti
TL;DR
This paper demonstrates that at least four neutrinos are necessary to explain all experimental neutrino oscillation data, identifying two compatible four-neutrino mass schemes with specific mass spectra.
Contribution
It provides the first comprehensive analysis showing only two four-neutrino schemes fit all current experimental data.
Findings
Only two four-neutrino schemes are compatible with all experiments.
These schemes feature two pairs of neutrinos with close masses separated by about 1 eV.
At least four neutrinos are required to explain solar, atmospheric, and LSND results.
Abstract
It is shown that at least four massive neutrinos are needed in order to accommodate the evidences in favor of neutrino oscillations found in solar and atmospheric neutrino experiments and in the LSND experiment. Among all four-neutrino schemes, only two are compatible with the results of all neutrino oscillation experiments. These two schemes have a mass spectrum composed of two pairs of neutrinos with close masses separated by the "LSND gap" of the order of 1 eV.
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Taxonomy
TopicsNeutrino Physics Research · Astrophysics and Cosmic Phenomena · Particle physics theoretical and experimental studies