Two loop QCD corrections to e+ e- J/ + ηc in asymptotic expansion

Abstract

Within the framework of NRQCD, the short-distance coefficients (SDCs) for the process e+e- J/+ηc have been obtained up to NNLO in asymptotic expansions over r=16mc2/s up to r15. Although these asymptotic expressions are deviated from the full results near the threshold r= 1, they provide excellent approximations to the full results for r<0.8, with deviations less than 3\%. Therefore, these asymptotic expressions offer reliable applications for phenomenological predictions across a wide range of center-of-mass energies s. Utilizing these asymptotic expressions, we present phenomenological predictions for the cross sections in both the on-shell mass scheme and the MS mass scheme, with the uncertainty arising from the renormalization scale μR included. The μR uncertainty for predictions from the MS mass scheme is slightly larger than that from the on-shell mass scheme, which is partly attributed to the helicity flip in the process e+e- J/+ηc. We observe that both mass schemes yield quite similar predictions, and our theoretical results are consistent with the available experimental data.