QCD corrections to e+ e- to J/((2S))+cJ (J=0,1,2) at B Factories

Abstract

We analytically calculate the cross sections of double charmonium production in e+ e- J/((2S))cJ (J=0,1,2) at next-to-leading order (NLO) in αs in nonrelativistic QCD, and confirm factorization of these processes. In contrast to c0 production, for which the NLO correction is large and positive, the NLO corrections for c1,2 production can be negative, resulting in decreased K factors of 0.91 and 0.78 for J=1 and 2 respectively when μ = 2 mc. Consequently, the NLO QCD corrections markedly enlarge the difference between cross sections of c0 and c1,2. This may explain why e+ e- J/((2S))c0 but not e+ e- J/((2S))c1,2 is observed experimentally. Moreover, for J/((2S))c1,2, the NLO QCD corrections substantially reduce the μ dependence and lead to predictions with small theoretical uncertainties.