Study of Λ0b ΛD decays with the rescattering mechanism

Abstract

We employ the final-state rescattering mechanism to systematically investigate the non-leptonic decays Λb0 ΛD (where D = D0, D0, D+, D-), which can help improve the experimental precision of the CP-violating phase angle γ. The framework integrates short-distance factorizable amplitudes with long-distance non-factorizable contributions arising from hadronic triangle rescattering diagrams. We find that the final-state rescattering contributions are essential, not only because they provide the strong phases necessary for CP violation, but also because they enhance the D0 Λ branching fraction by two orders of magnitude. Numerically, we calculate the branching ratios of the channels with different partial waves, as well as the corresponding CP-violating observables. In particular, the direct CP asymmetries aCPdir(D+) = 0.28+0.07-0.11 and aCPdir(D-) = -0.14+0.06-0.04 are found to be very significant. These results provide a reliable theoretical benchmark and can be tested against future measurements from the LHCb experiment.