Common origin of θ_{13} and Îm^2_{12} in a model of neutrino mass with quaternion symmetry
arXiv:0708.0166 · doi:10.1103/PhysRevD.76.096007
Abstract
The smallness of the 1-3 lepton mixing angle $θ_{13}$ and of the neutrino mass-squared-difference ratio $Îm^2_{12}/Îm^2_{23}$ can be understood as the departure from a common limit where they both vanish. We discuss in general the conditions for realizing the mass degeneracy of a pair of neutrinos and show that the vanishing of a CP violating phase is needed. We find that the discrete quaternion group Q of eight elements is the simplest family symmetry which correlates the smallness of $Îm^2_{12}$ to the value of $θ_{13}$. In such a model we predict $0.12\lesssim \sinθ_{13} \lesssim 0.2$ if the ordering of the neutrino mass spectrum is normal, and $\sinθ_{13}\lesssim 0.12$ if it is inverted.
revtex, 7 pages, 6 pdf figures; Appendix added discussing in detail the alignment of VEVs