Displaced fat-jets and tracks to probe boosted right-handed neutrinos in the U(1)B-L model

Abstract

We investigate the pair-production of Right-Handed Neutrinos (RHNs) via a B-L Z' boson and the detection prospects at the High-Luminosity run of the LHC (HL-LHC) and a future pp collider (FCC-hh). We focus on RHN states with a mass of 10-70 GeV which naturally results in displaced vertices for small active-sterile mixing strengths. Being produced through a mass resonance with mZ' 1 TeV, the RHNs are heavily boosted, leading to collimated decay products that give rise to fat-jets. We investigate the detection prospect of dedicated signatures in the inner detector and the muon spectrometer, namely a pair of displaced fat-jets and the associated tracks, respectively. We find that both the HL-LHC and FCC-hh can be sensitive to small active-sterile mixing Vμ N > 10-6 and Vμ N > 10-7 with the number of events reaching O(10) and O(103), respectively. This allows probing the generation of light neutrino masses through the Seesaw mechanism in this scenario.