Linearly Polarized Photon Fusion as a Precision Probe of the Tau Lepton Dipole Moments at Lepton Colliders

Abstract

We present a comprehensive investigation into the anomalous magnetic dipole moment (aτ) and electric dipole moment (dτ) of the τ lepton using the γγ τ+τ- process at future lepton colliders, with the Super Tau-Charm Facility serving as a benchmark. By employing transverse-momentum-dependent factorization, we introduce novel observables derived from 2φ, 2φ, and 4φ azimuthal asymmetries to precisely probe the τ lepton's electromagnetic structure. Our analysis significantly enhances the precision of aτ constraints within the photon-photon fusion process, yielding Re(aτ) ∈ [-4.6, 7.0] × 10-3 at the 2σ confidence level, which approaches the precision of the Standard Model prediction. These findings highlight the considerable potential of azimuthal asymmetry measurements for high-precision determinations of fundamental particle properties at future lepton colliders.