Neutrino Masses within the Minimal Supersymmetric Standard Model

Abstract

We investigate the possibility of accommodating neutrino masses compatible with the MSW study of the Solar neutrino deficit within the minimal supersymmetric Standard Model. The ``gravity-induced'' seesaw mechanism based on an interplay of nonrenormalizable and renormalizable terms in the superpotential allows neutrino masses m mu2/MI, with mu the corresponding quark mass and MI 4×1011 GeV, while at the same time ensuring the grand desert with the gauge coupling unification at MU 2×1016 GeV. The proposed scenario may be realized in a class of string vacua, i.e., large radius (R2/α '= O(20)) (0,2) Calabi-Yau spaces. In this case MU2=MC2/ O (2R2/α') and MI= O(e-R2/α')MC. Here MC=g× 5.2× 1017GeV is the scale of the tree level (genus zero) gauge coupling (g) unification.

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