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Charmless B decays to eta' and eta

arXiv:hep-ph/9707316 · doi:10.1016/S0370-2693(97)01167-2

Abstract

Exclusive charmless B decays to $η'$ and $η$ are studied in the standard effective Hamiltonian approach. The effective coefficients that take into account nonfactorizable effects in external and internal W-emission amplitudes are fixed by experiment. Factorization is applied to the matrix elements of QCD, electroweak penguin operators and next-to-leading corrections to penguin Wilson coefficients, which are renormalization-scheme dependent, are included, but the resultant amplitude is renormalization-scheme and -scale independent. We show that the unexpectedly large branching ratio of $B^\pm\to η' K^\pm$ measured by CLEO can be explained by the Cabibbo-allowed internal W-emission process $b\to c\bar cs$ followed by a conversion of the $c\bar c$ pair into the $η'$ via gluon exchanges characterized by a decay constant of order -50 MeV. Implications are discussed. The mechanism of the transition $c\bar c\toη'$, if correct, will enhance the decay rates of $B\to η' K^{*}$ by more than an order of magnitude. However, it plays only a minor role to the rare decays $B\to η'(η)π(ρ)$. The predicted branching ratio of $B^\pm\to ηπ^\pm$ for positive $ρ$ is marginally ruled out by experiment, indicating that the favored Wolfenstein parameter $ρ$ is negative.

13 pages, to appear in PLB. Main changes are: (i) CLEO data are updated, (ii) the dependence of the branching ratio on the strange quark mass and form factors is discussed, (iii) a new equation (24) is added, and (iv) many references are updated and new references are included