Predicting Three Generations of Fermions: Discovery Prospects of the Bilepton Model

Abstract

We study the production of pairs of doubly-charged bileptons and assess their discovery potential in light of the integrated luminosities available at the High-Luminosity LHC. The production rates are governed primarily by the bilepton mass, (mY), and the mass of the exotic heavy quarks, (mD). We consider two complementary production channels: (i) direct bilepton pair production and (ii) bilepton production mediated through heavy-quark decays. Notably, the latter typically yields significantly enhanced cross sections and gives rise to distinctive LHC signatures, even when the bileptons are produced off-shell. The two mechanisms therefore probe complementary regions of parameter space, with direct production being predominantly sensitive to mY, while the heavy-quark-mediated channel depends mainly on mD. Owing to the essentially background-free signature of four energetic leptons at the LHC, we show that Run-2 data allow a discovery only for mD 1\,TeV, whereas the HL-LHC can achieve a 5σ discovery up to mD 2.5\,TeV (nearly independently of mY) and/or for mY 2\,TeV (even if D is heavy).