Mixing effects of η-η' in b→ η(') decays

Abstract

We perform a thorough analysis of the η-η' mixing effects on the b→ η(') decays based on the perturbative QCD (PQCD) factorization approach. Branching ratios, up-down and direct CP asymmetries are computed by considering four popular mixing schemes, such as η-η', η-η'-ηc, η-η'-G, and η-η'-G-ηc mixing formalism, where G represents the physical pseudoscalar gluball. The PQCD predictions with the four mixing schemes does not change much for the η channel but changes significantly for the η' one. In particular, the value of B(b→ η') in the η-η'-G-ηc mixing scheme exceeds the present experimental bound by a factor of 2, indicates the related mixing angles may be overestimated. Because of the distinctive patterns of interference between S-wave and P-wave amplitudes, the predicted up-down asymmetries for the two modes differ significantly. The obvious discrepancies among different theoretical analyses should be clarified in the future. The direct CP violations are predicted to be at the level of a few percent mainly due to the tree contributions of the strange and nonstrange amplitudes suffer from the color suppression and CKM suppression. Finally, as a byproduct, we investigate the b→ ηc process, which has a large branching ratio of order 10-4, promising to be measured by the LHCb experiment. Our findings are useful for constraining the mixing parameters, comprehending the η(') configurations, and instructing experimental measurements.