The Top Quark Mass in Supersymmetric SO(10) Unification
Abstract
The successful prediction of 2θW suggests that the effective theory beneath the GUT scale is the two-Higgs MSSM. If we further assume that the unified gauge group contains SO(10), that the two light Higgs doublets lie mostly in a single irreducible SO(10) representation, and that the t, b and τ masses originate in renormalizable Yukawa interactions of the form 163 O 163, then also the top quark mass can be predicted in terms of the MSSM parameters. To compute mt we present a precise analytic approximation to the solution of the 2-loop renormalization group equations, and study supersymmetric and GUT threshold corrections and the input value of the b quark mass. The large ratio of top to bottom quark masses derives from a large ratio, β, of Higgs vacuum expectation values. We point out that when β is large, so are certain corrections to the b quark mass prediction, unless a particular hierarchy exists in the parameters of the model. With such a hierarchy, which may result from approximate symmetries, the top mass prediction depends only weakly on the spectrum. Our results may be applied to any supersymmetric SO(10)-like model as long as λt λbλτ at the GUT scale and there are no intermediate mass scales in the desert.
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