Phenomenological studies on the B0→ [K-π+]S/V[π+π-]V/S → K-π+π+π- decay

Abstract

Within the quasi-two-body decay model, we study the localized CP violation and branching fraction of the four-body decay B0→ [K-π+]S/V[π+π-]V/S → K-π+π-π+ when K-π+ and π-π+ pair invariant masses are 0.35<mK-π+<2.04 \, GeV and 0<mπ-π+<1.06\, GeV, with the pairs being dominated by the K*0(700)0, K*(892)0, K*(1410)0, K*0(1430) and K*(1680)0, and f0(500), 0(770) , ω(782) and f0(980) resonances, respectively. When dealing with the dynamical functions of these resonances, f0(500), 0(770), f0(980) and K*0(1430) are modeled with the Bugg model, Gounaris-Sakurai function, Flatte formalism and LASS lineshape, respectively, while others are described by the relativistic Breit-Wigner function. Adopting the end point divergence parameters A∈[0,0.5] and φA∈[0,2π], our predicted results are ACP(B0→ K-π+π+π-)∈[-0.383,0.421] and B(B0→ K-π+π+π-)∈[7.36,199.69]×10-8 based on the hypothetical qq structures for the scalar mesons in the QCD factorization approach. Meanwhile, we calculate the CP violating asymmetries and branching fractions of the two-body decays B0→ SV(VS) and all the individual four-body decays B0→ SV(VS) → K-π+π-π+, respectively. Our theoretical results for the two-body decays B0→ K*(892)0f0(980), B0→ K*0(1430)0ω(782), B0→ K*(892)0f0(980), B0→K*0(1430)0,