Next-to-leading order QCD corrections for the charmonium production via the channel e+ e- H(|cc) + γ round the Z0 peak

Abstract

In our previous work [2], it has been found that sizable charmonium events via the channel e+e- γ*/Z0 H(|cc) +γ can be produced at the suggested super Z factory, where H(|cc) represents the dominant color-singlet S-wave and P-wave charmonium states J/, ηc, hc and cJ (J=0, 1, 2), respectively. As an important step forward, in the present paper, we present a next-to-leading order (NLO) QCD analysis within the framework of nonrelativistic QCD. In different to the case of B factory in which the single charmonium production is dominated by the channel via a virtual photon, at the super Z factory, its cross-section is dominated by the channel via a Z0 boson. Estimations up to NLO level are done at both the B factory and the super Z factory experimental conditions. We observe that the NLO distributions have the same shapes as those of LO distributions, but their differences are sizable. This indicates that a NLO calculation is necessary and important to achieve a more accurate estimation. Due to Z0 boson resonance effect, at the super Z factory with a high luminosity up to 1036 cm-2 s-1, when summing all the color-singlet states' contribution together, one may observe about 8.0×104 charmonium events via the channel e+e- Z0 H(|cc)+γ in one operation year. Then, such super Z factory could provide another useful platform to study the charmonium properties, even for the higher charmonium states.