Testing Radiative Neutrino Mass Models at the LHC

Abstract

The Large Hadron Collider provides us new opportunities to search for the origin of neutrino mass. Beyond the minimal see-saw models a plethora of models exist which realise neutrino mass at tree- or loop-level, and it is important to be sure that these possibilities are satisfactorily covered by searches. The purpose of this paper is to advance a systematic approach to this problem. Majorana neutrino mass models can be organised by SM-gauge-invariant operators which violate lepton number by two units. In this paper we write down the minimal ultraviolet completions for all of the mass-dimension 7 operators. We predict vector-like quarks, vector-like leptons, scalar leptoquarks, a charged scalar, and a scalar doublet, whose properties are constrained by neutrino oscillation data. A detailed collider study is presented for O3=LLQ dH and O8 = L d e u H completions with a vector-like quark (3, 2, -56) and a leptoquark φ( 3,1,13). The existing LHC limits extracted from searches for vector-like fermions and sbottoms/stops are m 620 GeV and mφ 600 GeV.