Optimal Charge and Color Breaking conditions in the MSSM
Abstract
In the MSSM, we make a careful tree-level study of Charge and Color Breaking conditions in the plane (H2, uL, uR), focusing on the top quark scalar case. A simple and fast procedure to compute the VEVs of the dangerous vacuum is presented and used to derive a model-independent optimal CCB bound on At. This bound takes into account all possible deviations of the CCB vacuum from the D-flat directions. For large β, it provides a CCB maximal mixing for the stop scalar fields t1,t2, which automatically rules out the Higgs maximal mixing |At|=6 mt. As a result, strong limits on the stop mass spectrum and a reduction, in some cases substantial, of the one-loop upper bound on the CP-even lightest Higgs boson mass, mh, are obtained. To incorporate one-loop leading corrections, this tree-level CCB condition should be evaluated at an appropriate renormalization scale which proves to be the SUSY scale.
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