Next-to-Leading Order QCD Correction to e+ e- J/ + ηc at s=10.6GeV
Abstract
One of the most challenging open problems in heavy quarkonium physics is the double charm production in e+e- annihilation at B factories. The measured cross section of e+ e- J/ + ηc is much larger than leading order (LO) theoretical predictions. With the nonrelativistic QCD factorization formalism, we calculate the next-to-leading order (NLO) QCD correction to this process. Taking all one-loop self-energy, triangle, box, and pentagon diagrams into account, and factoring the Coulomb-singular term into the c c bound state wave function, we get an ultraviolet and infrared finite correction to the cross section of e+e- J/ + ηc at s =10.6 GeV. We find that the NLO QCD correction can substantially enhance the cross section with a K factor (the ratio of NLO to LO) of about 1.8-2.1; hence it greatly reduces the large discrepancy between theory and experiment. With mc=1.4 GeV and μ=2mc, the NLO cross section is estimated to be 18.9 fb, which reaches to the lower bound of experiment.
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