Further swampland constraint on Dirac Neutrino

Abstract

Recent studies on swampland conjectures (e.g. non-SUSY AdS conjecture or AdS distance conjecture) predict that the (lightest) neutrino must be Dirac and the mass must be cosmologically small m < c 1/4cc 10 \ meV. The Dirac neutrino naturally accompanies a U(1) symmetry that can be embedded in the anomaly-free U(1)B-L global symmetry of the standard model. We point out that the swampland conjectures applied to a circle compactification with the U(1) symmetry twisting lead to further constraints. In particular, the U(1) symmetry must be broken down to Z4,Z8 or Z10 in the case of normal hierarchy, and Z4 in the case of inverted hierarchy, providing evidence for the absence of continuous global symmetry in quantum gravity. We also predict a more constrained upper bound of the neutrino mass for each case.