Kaon Distribution Amplitude from QCD Sum Rules
Abstract
We present a new calculation of the first Gegenbauer moment a1K of the kaon light-cone distribution amplitude. This moment is determined by the difference between the average momenta of strange and nonstrange valence quarks in the kaon. To calculate a1K, QCD sum rule for the diagonal correlation function of local and nonlocal axial-vector currents is used. Contributions of condensates up to dimension six are taken into account, including O(αs)-corrections to the quark-condensate term. We obtain a1K=0.05 0.02, differing by the sign and magnitude from the recent sum-rule estimate from the nondiagonal correlation function of pseudoscalar and axial-vector currents. We argue that the nondiagonal sum rule is numerically not reliable. Furthermore, an independent indication for a positive a1K is given, based on the matching of two different light-cone sum rules for the Kπ form factor. With the new interval of a1K we update our previous numerical predictions for SU(3)-violating effects in B(s) K form factors and charmless (B) decays.
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