Two-body hadronic weak decays of antitriplet charmed baryons

Abstract

We study Cabibbo-favored (CF) and singly Cabibbo-suppressed (SCS) two-body hadronic weak decays of the antitriplet charmed baryons c+, c0 and c+ with more focus on the last two. Both factorizable and nonfactorizable contributions are considered in the topologic diagram approach. The estimation of nonfactorizable contributions from W-exchange and inner W-emission diagrams relies on the pole model and current algebra. The non-perturbative parameters in both factorizable and nonfactorizable parts are calculated in the MIT bag model. Branching fractions and up-down decay asymmetries for all the CF and SCS decays of antitriplet charmed baryons are presented. The prediction of B(c+ 0π+ ) agrees well with the measurements inferred from Belle and CLEO, while the calculated B(c0 -π+) is too large compared to the recent Belle measurement. We conclude that these two c π+ modes cannot be simultaneously explained within the current-algebra framework for S-wave amplitudes. This issue needs to be resolved in future study. The long-standing puzzle with the branching fraction and decay asymmetry of c+0 K+ is resolved by noting that only type-II W-exchange diagram will contribute to this mode. We find that not only the calculated rate agrees with experiment but also the predicted decay asymmetry is consistent with the SU(3)-flavor symmetry approach in sign and magnitude. Likewise, the CF mode c0 +K- and the SCS decays c0 pK-,+π- proceed only through type-II W-exchange. They are predicted to have large and positive decay asymmetries. These features can be tested in the near future.