The -meson longitudinal leading-twist distribution amplitude within QCD background field theory

Abstract

We revisit the -meson longitudinal leading-twist distribution amplitude (DA) φ2;\| by using the QCD sum rules approach within the background field theory. To improve the accuracy of the sum rules for its moments n;\|, we include the next-to-leading order QCD correction to the perturbative part and keep all non-perturbative condensates up to dimension-six consistently within the background field theory. The first two moments read 2;\| |1 GeV = 0.241(28) and 4;\| |1 GeV = 0.109(10), indicating a double humped behavior for φ2;\| at small energy scale. As an application, we apply them to the B transition form factors within the QCD light-cone sum rules, which are key components for the decay width (B ). To compare with the world-average of (B ) issued by Particle Data Group, we predict |V ub| = 3.19+0.65-0.62, which agrees with the BABAR and Omn\`es parameterization prediction within errors.