Large SU(3) breaking effects and CP violation in B+ decays into three charged SU(3) octet pseudoscalar mesons

Abstract

TThe LHCb collaboration has recently reported evidence for non-zero CP asymmetries in B+ decays into π+ K+ K-,\; π+π+π-,\; K+ K+ K- and K+π+π-. The branching ratios for these decays have also been measured with different values ranging from 5× 10-6 to 51× 10-6. If flavor SU(3) symmetry is a good symmetry for B decays, in the case that the dominant amplitude is momentum independent it is expected that branching ratios Br and CP violating rate differences CP = - satisfy, Br(π+π+π-) = 2Br(π+ K+ K-), Br(K+K+K-) = 2 Br(K+π+π-), and CP(π+π+π-) = 2CP(π+ K+K-) = - CP(K+K+K-) = -2CP(K+π+π-). The experimental data do not exhibit the expected pattern for the branching ratios. The rate differences for B+ π+π+π- and B+ K+ K+ K- satisfy the relation between S =0 and S=1 well, but the other two do not, with the CP asymmetries having different signs than expected. In this work we study how to including momentum dependent and also SU(3) breaking effects on these decays to explain experimental data. We find that only including lowest order derivative terms, in the SU(3) limit, the decay patterns cannot be explained. Large SU(3) breaking effects are needed to explain the data.