Z Boson Radiative Decay Z μ+ μ- γ at the LHC

Abstract

We study the radiative decay of the Z boson, Z μ+μ-γ, at the LHC, providing both Standard Model (SM) precision analysis and new physics projections. With detailed analysis of Run-2 and future HL-LHC performances, we demonstrate that this decay mode can be measured with a statistical precision at the sub-percentage level. From existing Run-1 data, we extract Brfid(Z μμγ) = (3.34 0.016)× 10-4. We further explore the sensitivity of this channel to axion-like particles (ALPs) and to an anomalous U(1)X gauge boson coupled to the muon. Both scenarios feature resonant structures in the dimuon invariant mass spectrum within the Z a/X + γ μ+μ-γ final state. Our results show that the radiative Z decay provides a clean and statistically powerful probe of such leptophilic new physics, extending the current collider reach for ALPs and anomalous gauge forces down to gX O(10-3). This study highlights the potential of rare electroweak gauge boson decays as precision tests of the SM and sensitive probes of new interactions at the LHC.