TeV-scale Seesaw with Quintuplet Fermions

Abstract

We propose a new seesaw model based on fermionic hypercharge zero weak quintuplet in conjunction with additional scalar quadruplet which attains an induced vev. The model provides both tree-level seesaw ~ v6/M5 and a loop-suppressed radiative ~ (1 / 16 π2) v2/M contributions to active neutrino masses. The empirical masses m ~ 10-1 eV can be achieved with M ~ TeV new states, accessible at the LHC. For 5 fb-1 of accumulated integrated luminosity at the LHC, there could be ~ 500 doubly-charged ++ or ++ fermions with mass M = 400 GeV, leading to interesting multi-lepton signatures. The neutral component of the fermion quintuplet, previously identified as minimal dark matter candidate, becomes unstable in the proposed seesaw setup. The stability can be restored by introducing a Z2 symmetry, in which case neutrinos get mass only from radiative contributions.