$θ_{13}$ and the Higgs mass from high scale supersymmetry
arXiv:1205.3849 · doi:10.1088/0253-6102/59/4/14
Abstract
In the framework in which supersymmetry is used for understanding fermion masses rather than stabilizing the electroweak scale, we elaborate the phenomenological analysis for the neutrino physics. A relatively large $\sin{θ_{13}}$ is the natural result. The model further predicts vanishingly small CP violation in neutrino oscillations. And $θ_{23}$ is not necessarily maximal. While the high scale supersymmetry generically results in a Higgs mass of about 141 GeV, our model reduces this mass via introducing SU(2)$_L$ triplet fields which also contribute to neutrino masses.
13 pages, no figure, revtex4, revised version