The 3-3-1 model with inert scalar triplet

Abstract

We show that the typical 3-3-1 models are only self-consistent if they contain interactions explicitly violating the lepton number. The 3-3-1 model with right-handed neutrinos can by itself work as an economical 3-3-1 model as a natural recognition of the above criteria while it also results an inert scalar triplet (η) responsible for dark matter. This is ensured by a Z2 symmetry (assigned so that only η is odd while all other multiplets which perform the economical 3-3-1 model are even), which is not broken by the vacuum. The minimal 3-3-1 model can provide a dark matter by a similar realization. Taking the former into account, we show that the dark matter candidate (Hη) contained in η transforms as a singlet in effective limit under the standard model symmetry and being naturally heavy. The Hη relic density and direct detection cross-section will get right values when the Hη mass is in TeV range as expected. The model predicts the Hη mass mHη=λ5× 2 TeV and the Hη-nucleon scattering cross-section σHη-N=1.56× 10-44 cm2, provided that the new neutral Higgs boson is heavy enough than the dark matter.