Study of localized CP violation in B-→ π- π+π- and the branching ratio of B-→ σ(600)π- in the QCD factorization approach

Abstract

In this work, within the QCD factorization approach, we study the localized integrated CP violation in the B-→ π-π+π- decay and the branching fraction of the B-→σπ- decay. Both the resonance and nonresonance contributions are included when we study the localized CP asymmetry in the B-→ π-π+π- decay. The resonance contributions from the scalar σ(600) and vector 0(770) mesons are included. For the σ(600) meson, we apply both the Breit-Wigner and Bugg models to deal with its propagator, and obtain B(B-→ σ(600)π-)<1.67×10-6 and B(B-→ σ(600) π-)<1.946×10-5 in these two models, respectively. We find that there is no allowed divergence parameters S and φS to satisfy the experimental data ACP(π-π+π-)=0.5840.0820.0270.007 in the region mπ+π- high2>15 GeV2 and mπ+π-low2<0.4 GeV2 and the upper limit of B(B-→ σ(600)π-) in the Breit-Wigner model, however, there exists the region S∈[1.70,3.34] and φS ∈ [0.50,4.50] satisfying the data for ACP(π-π+π-) and the upper limit of B(B-→ σ(600)π-) in the Bugg model. This reveals that the Bugg model is more plausible than the Breit-Wigner model to describe the propagator of the σ(600) meson even though the finite width effects are considered in both models. The large values of S indicate that the contributions from weak annihilation and hard spectator scattering processes are both large, especially, the weak annihilation contribution should not be negleted for B decays to final states including a scalar meson.