Right handed neutrino production from Z interactions in forward search experiments

Abstract

We study two general U(1) extensions of the Standard Model (SM) those generate tiny neutrino masses via the seesaw mechanism after general U(1) breaking. These models predict a new neutral gauge boson (Z') and right-handed neutrinos (RHNs), the latter introduced for anomaly cancellation and neutrino mass generation. In both scenarios, left- and right-handed fermions couple differently to the Z', and RHNs mix with light neutrinos, enabling variety of decay modes. Focusing on the high-luminosity LHC (HL-LHC) and the future FASER2 experiment, we explore RHN pair production from Z' decays in two cases: (i) long-lived Z' decays to visible modes and long-lived RHNs, and (ii) short-lived Z' decays to long-lived RHNs, which further decay visibly inside FASER2. We estimate projected limits on the general U(1) gauge coupling, Z' mass, RHN mass, and light-heavy neutrino mixing for various U(1) charge assignments, and compare them with current experimental bounds.