True muonium resonant production at e+e- colliders with standard crossing angle

Abstract

True muonium (μ+μ-) is the heaviest and smallest bound state not involving quantum chromodynamics, after true tauonium (τ+τ-) and mu-tauonium (μτ). Unlike atoms containing τ particles, the muon lifetime is long enough to allow observation of true muonium (TM) decays and transitions. One of the proposed methods to observe the spin 1 fundamental state of TM, which has the smallest lifetime among TM spin 1 states, was to build an e+e- collider with a large crossing angle (θ 30) in order to provide TM with a large boost and detect its decay vertex in e+ e-. The following paper will instead show that TM excited states (n≥2) can be observed in relatively large quantities (O(10)/month) at a feasible e+e- collider with standard crossing angles, after setting their center-of-mass energy to the TM mass (2mμ=211.4 MeV).