Origin of Yukawa couplings for Higgs and leptoquarks

Abstract

We propose a model in which the Yukawa couplings of Higgs doublets are related to the couplings of the chiral fermions to a scalar leptoquark triplet. This is due to their common origin via mixing with a vector-like family distinguished by a discrete Z5 symmetry, under which only the three chiral families are neutral. The model predicts lepton non-universality in B to K decays, depending on the leptoquark mass, Vts and mμ/mτ. The model can only consistently explain the anomalies in RK(*) for a leptoquark mass close to the collider lower bound of about 1~TeV. Constraints from Bs - Bs mixing and eventually τ μ γ become relevant for low leptoquark masses and large couplings, while μ e γ remains automatically under control due to the absence of leptoquark couplings to the electron in this model.