Possible resolution of the B -> pi pi, pi K puzzles

Abstract

We show that there exist uncanceled soft divergences in the kT factorization for nonfactorizable amplitudes of two-body nonleptonic B meson decays, similar to those identified in hadron hadroproduction. These divergences can be grouped into a soft factor using the eikonal approximation, which is then treated as an additional nonperturbative input in the perturbative QCD formalism. Viewing the special role of the pion as a q-qbar bound state and as a pseudo Nambu-Goldstone boson, we postulate that the soft effect associated with it is significant. This soft factor enhances the nonfactorizable color-suppressed tree amplitudes, such that the branching ratios B(pi0 pi0) and B(pi0 rho0) are increased under the constraint of the B(rho0 rho0) data, the difference between the direct CP asymmetries ACP(pi K) and ACP(pi0 K) is enlarged, and the mixing-induced CP asymmetry Spi0 KS is reduced. Namely, the known pi pi and pi K puzzles can be resolved simultaneously.