Probing electroweak pair production of heavy neutral leptons with displaced vertices at the LHC

Abstract

We study the sensitivity of displaced vertex searches at the LHC to heavy neutral leptons (also known as sterile neutrinos) that are produced in pairs with an electroweak-size cross section. We work within the context of a supersymmetric model in which the sterile neutrino is produced along with Standard Model particles in higgsino decays. By making use of model-independent reconstruction efficiencies provided by the ATLAS collaboration in their search for displaced vertices with multiple jets, we obtain constraints on this model from 139 fb-1 of data collected by ATLAS during the LHC Run~2, and assess the discovery reach of Run~3 and of the high-luminosity LHC (HL-LHC). Depending on the higgsino mass parameter, sterile neutrino masses between 20~GeV and 230~GeV and active-sterile neutrino mixings in the range 4 × 10-14 V2N 3 × 10-10 can be excluded. At the HL-LHC, discovery-level significances could be reached for sterile neutrinos masses up to 295~GeV and values of V2N down to 3 × 10-14. Finally, moving away from the supersymmetric scenario, we study to which extent these results can be generalized to a broader class of models in which the sterile neutrinos are produced in the decays of heavier particles that are themselves pair-produced with an electroweak-size cross section.