ee∈MC: Simulation of e+e- μ+ μ- (γ) and e+e- τ+τ- (γ) Events

Abstract

We present a new Monte-Carlo generator, ee∈MC, for the simulation of e+e- μ+ μ- (γ) , e+e- τ+τ- (γ) and τ lepton decays which is suitable for e+e- colliders from threshold up to energy of 10.58GeV. The e+e- μ+ μ-(γ) , e+e- τ+τ-(γ) interactions are computed up to the exact LO matrix element where the running of αQED includes both the LO leptonic and hadronic vacuum polarization. Infra-red divergences are investigated within the Yennie-Frautschi-Suura Exponentiation formalism, where several well-known approximations and a formulation based on the exact LO contribution to the soft and virtual photons are applied. The simulation of the τ lepton consists of the leptonic decay modes at Born level and theoretical models based on Flux-Tube Breaking Models and Chiral Resonance Lagrangian Models as well as experimental models for the majority of semi-leptonic decay modes. This includes hadronic models for investigating the origin of low mass scalar sector recently observed in decays of the τ lepton and their association with the origin of the constituent-quark mass through Chiral-symmetry Breaking.