On-shell Renormalization with Vector-like Leptons, One-loop Muon-Higgs Coupling and Muon g-2
Abstract
Models with vector-like leptons can strongly modify the lepton mass generation mechanism and lead to correlated effects in lepton-Higgs couplings and lepton dipole moments. Here we begin an analysis of higher-order corrections in such models by setting up a renormalization scheme with full on-shell conditions on the lepton self energies, masses and fields. A minimal set of fundamental parameters is renormalized in the MS scheme. We provide a detailed discussion of lepton mixing and redundancies at higher orders, show how the relevant counterterms can be obtained from the renormalization conditions, and determine the β-functions corresponding to the scheme. As a first application we calculate the one-loop effective muon--Higgs coupling and analyse its correlation with the muon anomalous magnetic moment aμVLL. In the interesting case of large masses and opposite-sign coupling, the lowest-order correlation implies a fixed value of aμVLL around 22.5× 10-10, while the higher-order corrections significantly reduce this value to the interval (10...18)× 10-10.
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