Probing the messenger of supersymmetry breaking by the muon anomalous magnetic moment
Abstract
Motivated by the recently measured muon's anomalous magnetic moment aμ, we examine the supersymmetry contribution to aμ in various mediation models of supersymmetry breaking which lead to predictive flavor conserving soft parameters at high energy scale. The studied models include dilaton/modulus-mediated models in heterotic string/M theory, gauge-mediated model, no-scale or gaugino-mediated model, and also the minimal and deflected anomaly-mediated models. For each model, the range of aSUSYμ allowed by other experimental constraints, e.g. b --> sγ and the collider bounds on superparticle masses, is obtained together with the corresponding parameter region of the model. Gauge-mediated models with low messenger scale can give any aSUSYμ within the 2σ bound. In many other models, b --> sγ favors aSUSYμ smaller than either the -1σ value (26× 10-10) or the central value (42× 10-10).
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