Flavor constraints on two-Higgs-doublet models with general diagonal Yukawa couplings

Abstract

We consider constraints from flavor physics on two-Higgs-doublet models (2HDM) with general, flavor-diagonal, Yukawa couplings. Analyzing the charged Higgs contribution to different observables, we find that b sγ transitions and MBd restrict the coupling λtt of the top quark (corresponding to β in models with a Z2 symmetry) to |λtt|<1 for mH+ 500 GeV. Stringent constraints from B meson decays are obtained also on the other third generation couplings λbb and λττ, but with stronger dependence on mH+. For the second generation, we obtain constraints on combinations of λss, λcc, and λμμ from leptonic K and Ds decays. The limits on the general couplings are translated to the common 2HDM types I -- IV with a Z2 symmetry, and presented on the (mH+,β) plane. The flavor constraints are most excluding in the type II model which lacks a decoupling limit in β. We obtain a lower limit mH+ 300 GeV in models of type II and III, while no lower bound on mH+ is found for types I and IV.