Observing true tauonium via two-photon fusion at e+e- and hadron colliders

Abstract

The feasibility of observing true tauonium, the bound state of two tau leptons, T0(τ+τ-)0, via photon-photon collisions at e+e- colliders and at the LHC, is studied. The production cross sections of the process γγ0γγ -- as well as those of all relevant backgrounds: spin-0 and 2 charmonium resonances decaying to diphotons, and light-by-light scattering -- are computed in the equivalent photon approximation for e+e- collisions at BES III (s = 3.8 GeV), Belle II (s = 10.6 GeV), and FCC-ee (s = 91.2 GeV), as well as for ultraperipheral p-p, p-Pb, and Pb-Pb collisions at the LHC. Despite small T0 production cross sections and a final state swamped by decays from overlapping pseudoscalar and tensor charmonium states -- the c2, ηc(2S), and c0 states have masses only 2.5, 84, and 139 MeV away, respectively, from the T0 peak -- evidence and observation of the ground state of the heaviest leptonium appears feasible at Belle II and FCC-ee, respectively, with in-situ high-precision measurements of the irreducible backgrounds.