Investigation of noscale supersymmetry breaking models with a gauged U(1)B-L symmetry
Abstract
Noscale supersymmetry (SUSY) breaking model is investigated in the minimal extension of the minimal supersymmetric standard model (MSSM) with a gauged U(1)B-L symmetry. We specifically consider a unification-inspired model with the gauge groups SU(3)C × SU(2)L × U(1)Y × U(1)B-L ⊂ SU(5) × U(1)5 for illustration. While the noscale boundary condition at the grand unification scale (MG 2× 1016 GeV) in the MSSM is not consistent with phenomenological constraints, we show that it is if the gaugino of the U(1)5 multiplet is several times heavier than the gauginos of the MSSM. However, if SU(5) × U(1)5 is further embedded in a larger simple group, e.g. SO(10), the noscale boundary condition at MG is inconsistent with phenomenological constraints. If we relax the noscale boundary condition and allow non-zero soft scalar masses for the Higgs fields which spontaneously break the U(1)5 symmetry, the resultant spectrum of SUSY particles becomes consistent with all the phenomenological constraints, even if we impose the GUT relation on the gauge coupling and the gaugino mass of the U(1)5. In this case, the SUSY CP problem is also solved, since the condition Bμ =0 at the boundary can be imposed consistently with the electroweak symmetry breaking.
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