Displaced Heavy Neutral Lepton from New Higgs Doublet

Abstract

Heavy neutral leptons N are introduced to explain the tiny neutrino masses via the seesaw mechanism. For proper small mixing parameter V N, the heavy neutral leptons N become long-lived, which leads to the displaced vertex signature at colliders. In this paper, we consider the displaced heavy neutral lepton from the neutrinophilic Higgs doublet decay. The new Higgs doublet with MeV scale VEV can naturally explain the tiny neutrino masses with TeV scale N. Different from current experimental searches via the W N decay, the new decays as H N are not suppressed by the small mixing parameter V N. Therefore, a larger parameter space is expected to be detected at colliders. We then investigate the promising region at the 14 TeV HL-LHC and the 3 TeV CLIC. According to our simulation, the DV signature could probe |V N|210-19 with mN<mH+, which covers the seesaw predicted value |V N|2 m/mN. We could probe mH+1200 GeV at the 14 TeV HL-LHC and mH+1490 GeV at the 3 TeV CLIC.