Charmless Hadronic Two-body Decays of Bu and Bd Mesons
Abstract
Two-body charmless nonleptonic decays of Bu and Bd mesons are studied within the framework of generalized factorization in which the effective Wilson coefficients ceffi are renormalization-scale and -scheme independent while factorization is applied to the tree-level hadronic matrix elements. Contrary to previous studies, our cieff do not suffer from gauge and infrared problems. Nonfactorizable effects are parametrized in terms of Nc(LL) and Nc(LR), the effective numbers of colors arising from (V-A)(V-A) and (V-A)(V+A) four-quark operators, respectively. Tree and penguin transitions are classified into six different classes. The data of B-0π- and B-φ K- clearly indicate that Nc(LR)≠ Nc(LL): The first measurement of the b -> u mode B-0π- and the experimental information on the tree-dominated mode B-ωπ- all imply that Nc(LL) is less than 3, whereas the CLEO measurement of B-φ K- shows Nc(LR)>3. For given input parameters, the prediction of B(Bη' K) is largely improved by setting Nc(LL)~2 and Nc(LR)>Nc(LL); in particular, the charm content of the eta' contributes in the right direction. The decay rate of Bφ K* is very sensitive to the form-factor ratio A2/A1; the absence of Bφ K events does not necessarily invalidate the factorization approach. If the branching ratio of B-ω K- is experimentally found to be significantly larger than that of B-0 K-, we argue that inelastic final-state rescattering may account for the disparity between ω K- and 0 K-.
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