In this paper, we reanalyze the top-quark pair production at the next-to-next-to-leading order (NNLO) in QCD at future e+e− colliders by using the Principle of Maximum Conformality (PMC) method. The PMC renormalization scales in αs are determined by absorbing the non-conformal β terms by recursively using the Renormalization Group Equation (RGE). Unlike the conventional scale-setting method of fixing the scale at the center-of-mass energy μr=s, the determined PMC scale Q⋆ is far smaller than the s and increases with the s, yielding the correct physical behavior for the top-quark pair production process. Moreover, the convergence of the pQCD series for the top-quark pair production is greatly improved due to the elimination of the renormalon divergence. For a typical collision energy of s=500 GeV, the PMC scale is Q⋆=107 GeV; the QCD correction factor K for conventional results is K∼1+0.1244−0.0087−0.0011+0.0102+0.0012+0.0184+0.0061−0.0003−0.0086+0.0002, where the first error is caused by varying the scale μr∈[s/2,2s] and the second error is from the top-quark mass Δmt=±0.7 GeV. After applying the PMC, the renormalization scale uncertainty is eliminated and the QCD correction factor K is improved to K∼1+0.1507−0.0015+0.0015−0.0057−0.0000+0.0001, where the error is from the top-quark mass Δmt=±0.7 GeV. The PMC improved predictions for the top-quark pair production are helpful for detailed studies of properties of the top-quark at future e+e− colliders.
@article{arxiv.2402.02363,
title = {Revisiting the top-quark pair production at future $e^+e^-$ colliders},
author = {Jin Ma and Sheng-Quan Wang and Ting Sun and Jian-Ming Shen and Xing-Gang Wu},
journal= {arXiv preprint arXiv:2402.02363},
year = {2024}
}