Scalar doublet models confront τ and b anomalies

Abstract

There are indications of a possible breakdown of the standard model, suggesting that τ lepton interactions violate flavor universality. BABAR, Belle and LHCb report high ratios of B D(*)τ. There are long-standing excesses in Bτ and Wτ decays, and a deficit in inclusive τ to strange decays. We investigate whether two Higgs doublet models with the most general allowed couplings to quarks, and a large coupling to τ leptons, can explain these anomalies while respecting other flavor constraints and technical naturalness. Fits to B D(*)τ data require couplings of the new Higgs doublet to down-type quarks, opening the door to many highly constrained flavor-changing neutral current (FCNC) processes. We confront these challenges by introducing a novel ansatz that relates the new up- and down-type Yukawa couplings, and demonstrate viable values of the couplings that are free from fine tuning. LEP and LHC searches for new Higgs bosons decaying via H0 τ+τ- and Hτ allow a window of masses mH = [100-125]\,GeV and m 100\,GeV that is consistent with the predictions of our model. Contamination of the W+τ+ signal by H+τ+ decays at LEP could explain the apparent Wτ excess. We predict that the branching ratio for Bs τ+τ- is not far below its current limit of several percent. An alternative model with decays of B D(*)τs to a sterile neutrino is also argued to be viable.