Light-Cone Distribution Amplitudes of Axial-vector Mesons

Abstract

We have presented a detailed study of twist-2 and twist-3 light-cone distribution amplitudes of 13P1 and 11P1 axial-vector mesons, based on QCD conformal partial wave expansion. Applying equations of motion, the twist-three two-parton light-cone distribution amplitudes can be expressed in terms of leading-twist and twist-three three-parton light-cone distribution amplitudes. The relevant G-parity invariant and violating parameters, containing the corrections due to the SU(3) breaking effects, are evaluated from the QCD sum rule method. The results for axial-vector decay constants of 13P1 states are presented. The values of tensor decay constants and Gegenbauer moments of the leading twist distribution amplitudes for 11P1 states are updated. Using Gell-Mann-Okubo mass formula, the mixing angle for the f8 and f1 of 13P1 states is θ3P1 38, and that for h8 and h1 of 11P1 states is θ1P1 10. The detailed properties for physical states f1(1285), f1(1420), h1(1170), and h1(1380) are given. Assuming the mixing angle between K1A and K1B to be θK=45 or -45, we also give the detailed study for K1(1270) and K1(1400). Using the conformal partial wave expansion, we obtain the models for light-cone distribution amplitudes, containing contributions up to conformal spin 9/2. It is interesting to note that some distribution amplitudes have significant asymmetric behaviors, which should be phenomenologically attractive.