Direct CP Violation, Branching Ratios and Form Factors B π, B K in B Decays
Abstract
The B π and B K transitions involved in hadronic B decays are investigated in a phenomenological way through the framework of QCD factorization. By comparing our results with experimental branching ratios from the BELLE, BABAR and CLEO Collaborations for all the B decays including either a pion or a kaon, we propose boundaries for the transition form factors B π and B K depending on the CKM matrix element parameters and η. From this analysis, the form factors required to reproduce the experimental data for branching ratios are FB π= 0.31 0.12 and FB K= 0.37 0.13. We calculate the direct CP violating asymmetry parameter, aCP, for B π+ π- π and B π+ π- K decays, in the case where -ω mixing effects are taken into account. Based on these results, we find that the direct CP asymmetry for B- π+ π- π-, B0 π+ π- π0, B- π+ π- K-, and B0 π+ π- K0, reaches its maximum when the invariant mass π+ π- is in the vicinity of the ω meson mass. The inclusion of -ω mixing provides an opportunity to erase, without ambiguity, the phase uncertainty mod(π) in the determination of the CKM angles α in case of b u and γ in case of b s.
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