Flavor phenomenology of an extended 2HDM with inverse seesaw mechanism

Abstract

We perform a detailed and comprehensive study of several flavor physics observables in both lepton and quark sectors within the framework of an extended 2HDM theory where the inverse seesaw mechanism is implemented to generate the SM fermion mass hierarchy. In that theory, the SM gauge symmetry is supplemented by the local U(1)X and discrete Z4× Z2 groups. In particular, we find that the leptonic flavor observables specifically, the branching ratios of LFV decays μ eγ, τ e(μ)γ and the anomalous magnetic moments ae(μ) strongly depend on the couplings of the neutral CP even(odd) Higgses with exotic charged lepton E1, whereas other observables involving BR(l 3l'), Mu-Mu transition and coherent conversion μ e in a muonic atom are predicted to be less than several orders of magnitude compared to the corresponding experimental limits. Regarding the quark sector, the most stringent limits arising from the FCNC process involving the down-type quark da db (a=1,2,3) transitions such as BR(B Xs γ), BR(Bs μ+μ-), and meson mixing mK,Bs, Bd. Considering the obtained constraints from these observables, the new physics contributions to other observables namely BR(Bs τ+μ-), BR(B+ K+τ+τ-), BR(B+ K+τ+μ-), and FCCC b c transition LFUV ratios RD(*) are shown to be remarkably small. Regarding the observables in the up-type quark transitions, the FCNC top quark processes t u(c)γ and t u(c)h have branching ratios consistent with the experimental limits. Additionally, observables related to SM-like Higgs boson decays BR(h l'l) and modified couplings ahff are also discussed.

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