Off-diagonal terms in Yukawa textures of the Type-III 2-Higgs doublet model and light charged Higgs boson phenomenology

Abstract

We discuss flavor-violating constraints and consequently possible charged Higgs boson phenomenology emerging from a four-zero Yukawa texture embedded within the Type-III 2-Higgs Doublet Model (2HDM-III). Firstly, we show in detail how we can obtain several kinds of 2HDMs when some parameters in the Yukawa texture are absent. Secondly, we present a comprehensive study of the main B-physics constraints on such parameters induced by flavor-changing processes, in particular on the off-diagonal terms of such a texture: i.e., from μ -e universality in τ decays, several leptonic B-decays (B τ , D μ and Ds l ), the semi-leptonic transition B D τ , plus B Xs γ, including B0- B0 mixing, Bs μ+ μ- and the radiative decay Z b b. Thirdly, having selected the surviving 2HDM-III parameter space, we show that the H- c b coupling can be very large over sizable expanses of it, in fact, a very different situation with respect to 2HDMs with a flavor discrete symmetry (i.e., Z2) and very similar to the case of the Aligned-2HDM (A2HDM) as well as of models with three or more Higgs doublets. Fourthly, we study in detail the ensuing H phenomenology at the Large Hadron Collider (LHC), chiefly the c b H+ production mode and the H+ c b decay channel while assuming τ+τ decays in the former and t bH+ production in the latter, showing that significant scope exists in both cases.