Non-renormalizable grand unification utilizing the leptoquark mechanism of neutrino mass
Abstract
We analyze a non-supersymmetric, non-renormalizable grand unified theory whose particle content is that of the Georgi-Glashow model augmented only by scalars from the 10 and 35 representations. A prediction of our model is a color sextet, weak isodoublet whose mass lies at 1 TeV (10 TeV) and that does not couple to Standard Model fermions at tree level. The leptoquark mechanism through which Majorana neutrinos radiatively acquire their masses relates the neutrino mass matrix to that of the down-type quarks. A consequence of this relation and perturbativity of coupling constants is the upper bound of 2.5 × 1015 GeV on the masses of the scalar leptoquarks S1* and R2. Electroweak mixing of these leptoquarks induces a B-L violating decay of the proton which indirectly contrains the mass of R2 to be greater than 2.1 × 109 GeV. We find the grand unification scale to exceed 1.4 × 1016 GeV in all scenarios considered.
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