Improved global determination of two-meson distribution amplitudes from multi-body B decays

Abstract

We improve the perturbative QCD (PQCD) formalism for multi-body charmless hadronic B meson decays, such as B VP3 P1P2P3, by resolving the possible discrepancy in parametrizing the contribution of the P-wave resonance V to the two-meson distribution amplitudes (DAs) associated with the pairs P1P2=ππ, Kπ, KK. The determination of the Gegenbauer moments in the two-meson DAs is then updated in the global fit of the improved PQCD factorization formulas at leading order in the strong coupling αs to available data for branching ratios and polarization fractions of three- and four-body B decays. The convergence of the Gegenbauer expansion of the resultant two-meson DAs is manifest. The satisfactory quality of the fit implies the consistency of the PQCD framework for multi-body B decays and the universality of the nonperturbative two-meson DAs. In particular, the predicted longitudinal polarization fraction f0(Bs0 K*0 K*0)=28.2+8.8-9.5 \% with the updated Gegenbauer moments matches well the measurement. The observable LK*0 K*0=7.7+4.9-3.8, defined as the ratio of the longitudinal amplitudes of the two U-spin related channels Bs0 K*0 K*0 and B0 K*0 K*0, accommodates the current data within errors. It is found that the direct CP asymmetries A0,||, CP in the polarization states of some four-body decays B V1V2 (P1P2)(P3P4) might be large, but the destruction among them result in small net CP violation. Our predictions can be confronted with LHCb and Belle-II data in the future.