Probing the electromagnetic properties of the neutrinos at future lepton colliders

Abstract

In this study, we explore the non-standard γ γ couplings parametrized by dimension-seven operators via e+e- γ process at the FCC-ee/CEPC and μ+μ-γ process at the Muon Colliders. For the detailed Monte Carlo simulation, all signal and relevant background events are produced within the framework of Madgraph where non-standard γ γ couplings are implemented. After passing through Pythia for parton showering and hadronization, detector effects are included via tuned corresponding detector cards for each collider in Delphes. Projected sensitivities on γ γ couplings are obtained at a 5σ confidence level without and with 5\% systematic uncertainties for the FCC-ee/CEPC and the Muon Colliders, showcasing the complementarity between lepton colliders. Our best limit on the anomalous γ γ couplings even with 5\% systematic uncertainties for muon collider with s=10 TeV and Lint=3 ab-1 are found to be thirteen orders of magnitude stronger than the upper bound obtained from rare decay Zγγ analysis using LEP data.