Experimental Tests of Factorization in Charmless Non-Leptonic Two-Body B Decays

Abstract

Using a theoretical framework based on the next-to-leading order QCD-improved effective Hamiltonian and a factorization Ansatz for the hadronic matrix elements of the four-quark operators, we reassess branching fractions in two-body non-leptonic decays B PP, PV, VV, involving the lowest lying light pseudoscalar (P) and vector (V) mesons in the standard model. Using the sensitivity of the decay rates on the effective number of colors, Nc, as a criterion of theoretical predictivity, we classify all the current-current (tree) and penguin transitions in five different classes. The recently measured charmless two-body B PP decays (B+ K+ η, B0 K0 η, B0 K+π-, B+ π+ K0 and charge conjugates) are dominated by the Nc-stable QCD penguins (class-IV transitions) and their estimates are consistent with data. The measured charmless B PV (B+ ω K+, ~B+ ω h+) and B VV transition (B φ K*), on the other hand, belong to the penguin (class-V) and tree (class-III) transitions. The class-V penguin transitions are in general more difficult to predict. We propose a number of tests of the factorization framework in terms of the ratios of branching ratios for some selected B h1 h2 decays involving light hadrons h1 and h2, which depend only moderately on the form factors. We also propose a set of measurements to determine the effective coefficients of the current-current and QCD penguin operators. The potential impact of B h1 h2 decays on the CKM phenomenology is emphasized by analyzing a number of decay rates in the factorization framework.

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