Majorana Neutrino Masses from Neutrinoless Double Beta Decay and   Cosmology

V. Barger; K. Whisnant

arXiv:hep-ph/9904281·hep-ph·September 15, 2009

Majorana Neutrino Masses from Neutrinoless Double Beta Decay and Cosmology

V. Barger, K. Whisnant

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Abstract

When three Majorana neutrinos describe the solar and atmospheric neutrino data via oscillations, a nonzero measurement of neutrinoless double beta ( $0 ν β β$ ) decay can determine the sum of neutrino masses $\sum m_{ν}$ if the solar solution has small-angle mixing, and place a lower bound on $\sum m_{ν}$ for large-angle solar mixing. If in addition a nonzero $\sum m_{ν}$ is deduced from cosmology, the neutrino mass spectrum may be uniquely specified for some ranges of neutrino parameters. For $\sum m_{ν} > 0.75$ eV, the small-angle solar solution is excluded by the current upper limit on neutrinoless double beta decay. In models with maximal solar mixing the $C P$ phases of the neutrinos may be strongly constrained by stringent upper bounds on $0 ν β β$ decay.

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