Exclusive charmonium production from e+ e- annihilation round the Z0 peak

Abstract

We make a comparative and comprehensive study on the charmonium exclusive productions at the e+e- collider with the collision energy either round the Z0-boson mass for a super Z factory or equals to 10.6 GeV for the B factories as Belle and BABAR. We study the total cross sections for the charmonium production via the exclusive processes e+e- γ*/Z0 H1+H2 and e+e- γ*/Z0 H1 +γ, where H1 and H2 represent the dominant color-singlet S-wave and P-wave charmonium states respectively. Total cross sections versus the e+e- collision energy s, together with their uncertainties, are presented, which clearly show the relative importance of these channels. At the B factory, the production channels via the virtual γ* propagator are dominant over the channels via the Z0 propagator by about four orders. While, at the super Z factory, due to the Z0-boson resonance effect, the Z0 boson channels shall provide sizable or even dominant contributions in comparison to the channels via the γ* propagator. Sizable exclusive charmonium events can be produced at the super Z factory with high luminocity up to 1036 cm-2 s-1, especially for the channel of e+e- Z0 H1 +γ, e.g. by taking mc=1.500.20 GeV, we shall have (5.0+0.8-0.6)×104 J/, (7.5+1.1-0.9)×103 ηc, (6.2+3.3-1.9)×103 hc, (3.1+1.7-0.9)×102 c0, (2.2+1.0-0.4)×103 c1, and (7.7+4.1-2.4)×102 c2 events by one operation year. Thus, in addition to the B factories as BABAR and Belle, such a super Z factory shall provide another useful platform for studying the heavy quarkonium properties and for testing QCD theories.