Towards a Standard Model with six fermion generations and a new breaking scale?

Abstract

Abstract We propose here an enhanced version of the Standard Model based on the same local gauge group SU(3)c ⊗ SU(2)L ⊗ U(1)Ythat undergoes a spontaneous symmetry breaking up to SU(3)c ⊗U(1)em. We prove that it can naturally predict: (i) the electric and weak charges’ quantization, (ii) the muon anomalous magnetic moment discrepancy ∆aµ, along with (iii) a realistic Higgs spectrum, (iv) a viable neutrino phenomenology, and (v) FCNCs suppression. This promising outcome -without spoiling any of the experimentally validated predictions of the Standard Model- occurs by simply assuming there are six non-universal fermion generations and two distinct scalar doublets. The latter ones develop different breaking scales, the old Standard Model scale v ≃ 246 GeV and a higher scale V - most likely in 1-100 TeV region, to be tested at LHC.