Branching Fractions and CP Violation in B- K+K-π- and B- π+π-π- Decays

Abstract

We present in this work a study of tree-dominated charmless three-body decays of B mesons, B- K+K-π- and B-π+π-π-, within the factorization approach. The main results are: (i) There are two distinct sources of nonresonant contributions: one arises from the b u tree transition and the other from the nonresonant matrix element of scalar densities M1M2| q1 q2|0 NR. It turns out that even for tree-dominated three-body decays, dominant nonresonant contributions originate from the penguin diagram rather than from the b u tree process, as implied by the large nonresonant component observed recently in the π- K+ system which accounts for one third of the B- K+K-π- rate. (ii) The calculated branching fraction of B- f2(1270)π- K+K-π- is smaller than the LHCb by a factor of 7 in its central value, but the predicted (B- f2(1270)π-π+π-π-) is consistent with the data. Branching fractions of B- f2(1270)π- extracted from the LHCb measurements of these two processes also differ by a factor of seven! Therefore, it is likely that the f2(1270) contribution to B- K+K-π- is largely overestimated experimentally. Including 1/mb power corrections from penguin annihilation inferred from QCD factorization (QCDF), a sizable CP asymmetry of 32\% in the f2(1270) component agrees with experiment. (iii) A fraction of 5\% for the (1450) component in B-π+π-π- is in accordance with the theoretical expectation. However, a large fraction of 30\% in B- K+K-π- is entirely unexpected. This issue needs to be clarified in the future.