Double heavy quarkonia production with color-octet channels at Z factory and at the CEPC/FCC-ee

Abstract

Within the NRQCD framework, we calculate the exclusive production of double heavy quarkonium(double charmonium and double bottomonium) at future super Z factory and at the CEPC/FCC-ee. The color-octet(CO) channels in the γ*/Z*-propagated process are considered along with the color-singlet(CS) channels. We found that the contributions of CO states to the total cross section are significant or dominant for many processes within energy region at Z factory and at the CEPC/FCC-ee. The experimental measurements will help us to verify the CO mechanism. Among these CO channels, the gluon fragmentation into 3S18 states is most important. Thus, the comparison between the theoretical results and future data will give a strong constraint to the matrix elements (3S1[8]). Additionally, we consider the relativistic corrections to both the CS and CO channels which decrease the cross sections significantly. Specially, the K factors are about 0.5 for most charmonium channels. We get estimates of the events for double heavy quarkonium production. The final events of J/+ηc, J/+J/, +ηb, + production would be (22, 570, 71, 61) and (206, 5343, 665, 576) at the CEPC (2-year) and at the FCC-ee (4-year) for the Z factory mode, respectively.