Bc Meson Production around the Z0 Peak at a High Luminosity e+ e- Collider

Abstract

Considering the possibility to build an e+ e- collider at the energies around the Z0-boson resonance with a planned luminosity so high as L 1034 1036cm-2s-1 (super Z-factory), we make a detailed discussion on the (cb)-quarkonium production through e++e-→ (cb)[n]+b+c within the framework of non-relativistic QCD. To simplify the hard-scattering amplitude as much as possible and to derive analytic expressions for the purpose of future events simulation, we adopt the "improved trace technology" to do our calculation, which deals with the hard scattering amplitude directly at the amplitude level other than the conventional way at the squared-amplitude level. Total cross-section uncertainties caused by the quark masses are predicted by taking mc=1.500.30 GeV and mb=4.900.40 GeV. If all higher (cb)-quarkonium states decay to the ground state Bc (|(cb) 1[1S0]>) with 100% efficiency, we obtain σe++e-→ Bc+b+c =5.190+6.222-2.419 pb, which shows that about 105 107 Bc events per operation year can be accumulated in the super Z-factory. If taking the collider energy runs slightly off the Z0-peak, i.e. S=(1.000.05) mZ, the total cross-section shall be lowered by about one-order from its peak value. Such a super Z-factory shall provide another useful platform to study the properties of Bc meson, or even the properties of its excited P-wave states, in addition to its production at the hadronic colliders Tevatron and LHC.