NRQCD Predictions of D-Wave Quarkonia 3DJ(J=1,2,3) Decay into Light Hadrons at Order αs3

Abstract

In this paper, in the framework of NRQCD we study the light hadron (LH) decays of the spin-triplet (S=1) D-wave heavy quarkonia. The short distance coefficients of all Fock states in the 3DJ(J=1,2,3) quarkonia including D-wave color-singlet, P-wave color-octet and S-wave color-singlet and color-octet are calculated perturbatively at αs3 order. The operator evolution equations of the four-fermion operators are also derived and are used to estimate the numerical values of the long distance matrix elements. We find that for the cc system, the LH decay widths of (13DJ) predicted by NRQCD is about 23 times larger than the phenomenological potential model results, while for the bb system the two theoretical estimations of ((13DJ) LH) are in coincidence with each other. Our predictions for (13DJ) LH decay widths are ((13DJ) LH)=(0.43,0.05,0.17)MeV for J=1,2,3; and for (13DJ), ((13DJ) LH)=(6.91,0.75,2.75)KeV for J=1,2,3.