The flavor of a light charged Higgs

Abstract

The ATLAS Collaboration has recently reported a search for light-charged Higgs in t H+ b decay, with H+ c b. An excess with a local significance of approximately 3σ is found at mH+≈130 GeV, with a best-fit value of BR(t H+b)× BR(H+ c b)=(1.60.6)×10-3. We study the implications of such a hypothetical signal in multi-Higgs doublet models. We take into account constraints from searches for other charged Higgs decays and from flavor-changing neutral current processes. Two Higgs doublet models with flavor structure dictated by natural flavor conservation (NFC), minimal flavor violation (MFV), or the Froggatt-Nielsen (FN) mechanism cannot account for such excess. A three-Higgs doublet model with NFC can account for the signal. The Yukawa couplings of the neutral pseudoscalar A in the down sector, YAD, should be larger by a factor of 4-6 compared to the corresponding Yukawa couplings of the Higgs h, YhD. We further present two minimal scenarios, one in which a single Yukawa coupling in the down sector, ( YAD)bb, gives the only significant contribution, and one in which two Yukawa couplings in the up sector, ( YAU)tt and ( YAU)tc, give the only significant contributions, and we discuss possible tests of these scenarios.