Asymptotics of QCD Factorization in Exclusive Hadronic Decays of B Mesons
Abstract
Using the renormalon calculus, we study the asymptotic behavior of the perturbative expansion of the hard-scattering kernels entering the QCD factorization formula for the nonleptonic weak decays B->D M, where M is a light meson. In the ``large-beta0 limit'', the kernels are infrared finite and free of endpoint singularities to all orders of perturbation theory. The leading infrared renormalon singularity corresponding to a power correction of order Lambda/mb vanishes if the light meson has a symmetric light-cone distribution amplitude. We calculate the Borel transforms and the corresponding momentum distribution functions of the hard-scattering kernels, and resum the series of O(beta0n-1 alphasn) corrections to explore the numerical significance of higher-order perturbative and power corrections. We also derive explicit expressions for the O(beta0 alphas2) contributions to the kernels, and for the renormalon singularities corresponding to power corrections of order (Lambda/mb)2. Finally, we study the limit mc->0 relevant to charmless hadronic decays such as B->pi pi.
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