Heavy neutrinos from gluon fusion

Abstract

Heavy neutrinos, a key prediction of many standard model extensions, remain some of the most searched-for objects at collider experiments. In this context, we revisit the premise that the gluon fusion production mechanism, gg Z*/h* N, is phenomenologically irrelevant at the CERN LHC and report the impact of soft gluon corrections to the production cross section. We resum threshold logarithms up to next-to-next-to-next-to-leading logarithmic accuracy (N3LL), thus capturing the dominant contributions to the inclusive cross section up to next-to-next-to-leading order (N2LO). For mN > 150 GeV and collider energies s = 7 - 100 TeV, corrections to the Born rates span +160 to +260\%. At s=14 TeV, the resummed channel is roughly equal in size to the widely-believed-to-be-dominant charged current Drell-Yan process and overtakes it outright at s 20-25 TeV. Results are independent of the precise nature/mixing of N and hold generically for other low-scale seesaws. Findings are also expected to hold for other exotic leptons and broken axial-vector currents, particularly as the Z* contribution identically reduces to that of a pseudoscalar.