Charmless Three-body Decays of B Mesons

Abstract

Charmless 3-body decays of B mesons are studied in the framework of the factorization approach. The nonresonant contributions arising from B P1P2 transitions are evaluated using heavy meson chiral perturbation theory (HMChPT). The momentum dependence of nonresonant amplitudes is assumed to be in the exponential form e-αNR pB·(pi+pj) so that the HMChPT results are recovered in the soft meson limit pi, pj 0. In addition, we have identified another large source of the nonresonant signal in the matrix elements of scalar densities, e.g. <K K| ss|0>, which can be constrained from the decay B0 KSKSKS or B- K-KSKS. The intermediate vector meson contributions to 3-body decays are identified through the vector current, while the scalar meson resonances are mainly associated with the scalar density. Their effects are described in terms of the Breit-Wigner formalism. Our main results are: (i) All KKK modes are dominated by the nonresonant background. The predicted branching ratios of K+K-KS(L), K+K-K- and K-KSKS modes are consistent with the data within errors. (ii) Although the penguin-dominated B0 K+K-KS decay is subject to a potentially significant tree pollution, its effective 2β is very similar to that of the KSKSKS mode. However, direct CP asymmetry of the former, being of order -4%, is more prominent than the latter. (iii) For B Kππ decays, we found sizable nonresonant contributions in K-π+π- and K0π+π- modes, in agreement with the Belle measurements but larger than the BaBar result.