6533b82ffe1ef96bd1295ba6
RESEARCH PRODUCT
Two-Higgs-doublet models with a flavored Z2 symmetry
U. J. Saldana-salazarWerner RodejohannS. Centelles Chuliásubject
QuarkPhysicsSemidirect productParticle physics010308 nuclear & particles physicsScalar (mathematics)High Energy Physics::PhenomenologyYukawa potentialSymmetry group01 natural sciences0103 physical sciencesHiggs bosonHigh Energy Physics::Experiment010306 general physicsLeptonDiscrete symmetrydescription
Two-Higgs-doublet models usually consider an ad-hoc Z2 discrete symmetry to avoid flavor changing neutral currents. We consider a new class of two-Higgs-doublet models where Z2 is enlarged to the symmetry group F⋊Z2, i.e., an inner semidirect product of a discrete symmetry group F and Z2. In such a scenario, the symmetry constrains the Yukawa interactions but goes unnoticed by the scalar sector. In the most minimal scenario, Z3⋊Z2=D3, flavor changing neutral currents mediated by scalars are absent at tree and one-loop level, while at the same time predictions to quark and lepton mixing are obtained, namely a trivial Cabibbo-Kobayashi-Maskawa matrix and a Pontecorvo-Maki-Nakagawa-Sakata matrix (upon introduction of three heavy right-handed neutrinos) containing maximal atmospheric mixing. Small extensions allow to fully reproduce mixing parameters, including cobimaximal mixing in the lepton sector (maximal atmospheric mixing and a maximal charge-parity violating phase).
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-02-11 | Physical Review |