Searching for the LFV γγ eμ interaction at future e- e+ colliders
Abstract
We investigate the Lepton Flavor Violating (LFV) process e+e- e+e-eμ (e=e-,\,e+,\,μ=μ-,\,μ+ ) at future circular colliders, probing the effective γγ eμ interaction through photon fusion. Within an Effective Field Theory (EFT) framework compatible with theoretical and experimental constraints, we identify regions in the parameter space of the effective couplings where the signal could be observed at the Circular Electron-Positron Collider (CEPC) at s=240\ GeV and the Future Circular Collider (FCC-ee) at s=240 and 350\ GeV. Our analysis leverages distinctive kinematic distributions -- particularly the transverse momentum of the scattered electron pT(e-\ scattered) and the central muon pTμ -- to achieve efficient signal-background separation. By employing a neural network classifier, we enhance the sensitivity beyond traditional cut-based methods, demonstrating the discovery potential of these facilities for LFV searches in the clean environment of e+e- collisions.
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