Higher-order QCD corrections to decay into double charmonia

Abstract

In this work, we study the exclusive decay of into J/ in association with ηc (c0,1,2). The decay widths for different helicity configurations are evaluated up to QCD next-to-leading order within the nonrelativistic QCD framework. We find that the QCD corrections notably mitigate the renormalization scale dependence of the decay widths for all the processes. The branching fraction of → J/+c1 is obtained as 3.73+5.10+0.10-2.06-1.19× 10-6, which agrees well with the Belle measurement, i.e., Br(→ J/+c1)=(3.901.210.23)×10-6. For the other processes, our results of the branching fractions are compatible with the upper limits given by the Belle experiments, except for (2S) J/ +c1, where some tension exists between theory and experiment. Having the polarized decay widths, we study the J/ polarization, which turn out to be independent of any nonperturbative parameters. Further, according to our calculation, it is promising to measure all the processes at Super B factory thanks to the high luminosity.

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