Enhancement of Radiatively Induced Magnetic Moment Form-Factors of Muon: an Effective Lagrangian Approach
Abstract
Using an effective lagrangian approach, we identify a class of models in which the loop-induced magnetic moment form-factors of muon are enhanced by possibly large factors (2F/2)(mτ/mμ)(mτ2/2) or (2F/2)(mμ2/2), where is the scale of new physics and F is the Fermi scale. These follow from left- and right-chirality mixing dimension-8 operators which for relatively small , as required to explain the new (gμ-2) measurement, dominate over dimension-6 operators. Thus significant enhancement of new physics contributions to (gμ-2) and, in the presence of intergenerational couplings, also to the μ eγ decay rate is possible. We discuss the compatibility of the (gμ-2) and μ eγ experimental data in this case and comment on the enhancement of the electron anomalous magnetic moment. An explicit model is presented to illustrate the general results.
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