The studies on Z (1S)+g+g at the next-to-leading-order QCD accuracy

Abstract

In this paper, we carry out the next-to-leading-order (NLO) studies on Z (1S)+g+g via the color-singlet (CS) bb state. We find the newly calculated NLO QCD corrections to this process can significantly influence its leading-order (LO) results, and greatly improve the dependence on the renormalization scale. By including the considerable feeddown contributions, the branching ratio BZ (1S)+g+g is predicted to be (0.56 0.95)× 10-6, which can reach up to 19\% 31\% of the LO predictions given by the CS dominant process Z (1S)+b+b. Moreover, Z (1S)+g+g also seriously affect the CS predictions on the (1S) energy distributions, especially when z is relatively small. In summary, for the inclusive (1S) productions in Z decay, besides Z (1S)+b+b, the gluon radiation process Z (1S)+g+g can provide indispensable contributions as well.