Production of a Heavy Quarkonium with a Photon or via ISR at Z Peak in e+e- Collider

Abstract

Considering the possibility to build an e+e- collider at the energies around Z-boson resonance with a luminosity so high as L 1034cm-2s-1 (even higher) and the abilities of a modern synthesis detector, we systematically calculate the exclusive two body processes: e+e- annihilates into a heavy quarkonium and a photon (initiate state radiation i.e. ISR is involved), at the energies around the Z-boson resonance. Since the couplings of Z-boson to quarks contain axial vector as well as vector, so here the produced heavy quarkonium may stand for a charmonium such as J/,ηc,hc,cJ·s and a bottomonium such as ,ηb,hb,bJ·s respectively. If we call such a collider with so high luminosity and running around the Z-boson resonance as a Z-factory, then our results obtained here indicate that experimental studies at a Z-factory about the various heavy quarkona (their ground and excited states) via the two-body processes, especially, the production of the bound states with quantum number JPC=1-- via ISR, have outstanding advantages.