Probing lepton number violation at FCC-ee

Abstract

We propose high-multiplicity final-state signatures, such as e+e- NN ++ 4j with denoting e,~μ, τ, as probes of lepton number violation (LNV) at FCC-ee, featuring negligible Standard Model background. In contrast to conventional searches such as pp + N + + jj or the process e+e-νN, which are suppressed by the small neutrino masses in conventional seesaw scenarios, the minimal linear seesaw picture avoids this suppression. This enables a direct LNV probe from final-state topology, with over O(103) events expected at FCC-ee. Besides probing the Majorana nature of neutrinos, this offers a novel avenue to test the neutrino mass ordering established by oscillation experiments in a high-energy collider setting.