Zeroing In On the Top Quark, LSP and Scalar Higgs Masses

Abstract

We estimate the top quark, lightest sparticle (LSP) and scalar higgs masses within a supersymmetric grand unified framework in which β mt/mb and the electroweak symmetry is radiatively broken. The requirement that the calculated b quark mass lie close to its measured value, together with the cosmological constraint LSP ≈ 1, fixes the top quark mass to be mt(mt) ≈ 170 15\ GeV. The LSP (of bino purity > 98\%) has mass 200 - 350\ GeV. In the scalar higgs sector the CP-odd scalar mass mA < 220\ GeV. With mA > MZ, as suggested by the decay b → sγ, we find MZ < mh0 (mH0) < 140 (220)\ GeV and 120\ GeV < mH < 240\ GeV.

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