Muon Anomalous g -2 and Gauged Lμ - Lτ Models
Abstract
In this paper we study Z' contribution to g -2 of the muon anomalous magnetic dipole moment in gauged U(1)Lμ - Lτ models. Here Li are the lepton numbers. We find that there are three classes of models which can produce a large value of g-2 to account for possible discrepancy between the experimental data and the Standard Model prediction. The three classes are: a) Models with an exact U(1)Lμ - Lτ. In these models, Z' is massless. The new gauge interaction coupling e a/θW is constrained to be 0.8× 10-3 < |a| < 2.24× 10-3. b) Models with broken U(1)Lμ - Lτ and the breaking scale is not related to electroweak symmetry breaking scale. The Z' gauge boson is massive. The allowed range of the coupling and the Z' mass are constrained, but Z' mass can be large; And c) The U(1)Lμ-Lτ is broken and the breaking scale is related to the electroweak scale. In this case the Z' mass is constrained to be 1.2 GeV. We find that there are interesting experimental signatures in μ+μ- μ+μ-, τ+τ- in these models.
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