Next-to-leading-order study of J/ angular distributions in e+e- J/+ηc,cJ at s ≈ 10.6 GeV

Abstract

In this paper, we present a detailed next-to-leading-order (NLO) study of J/ angular distributions in e+e- J/+ηc,cJ (J=0,1,2) within the nonrelativistic QCD factorization (NRQCD). The numerical NLO expressions for total and differential cross sections, i.e., dσdθ=A+B2θ, are both derived. With the inclusion of the newly-calculated QCD corrections to A and B, the αθ(= B/A) parameters in J/+c0 and J/+c1 are moderately enhanced, while the magnitude of αθJ/+c2 is significantly reduced; regarding the production of J/+ηc, the αθ value remains unchanged. By comparing with experiment, we find the predicted αθJ/+ηc is in good agreement with the BELLE measurement; however, αθJ/+c0 is still totally incompatible with the experimental result, and this discrepancy seems to hardly be cured by proper choices of the charm-quark mass, the renormalization scale, and the NRQCD matrix elements.