Impact of N* and Λ* resonances on CP violation in Λb0 decays

Abstract

The four-body decay Λb0 pK-π+π- has led to the first observation of baryonic CP violation. However, the underlying subprocesses Λb0 N* M and Λb0 Λ* M, as well as the roles of excited nucleon (N*) and hyperon (Λ*) resonances, remain largely unexplored. Within the constituent quark model, we identify the relevant resonant states contributing to these underlying two-body transitions, including N(1535), N(1520), Λ(1670), Λ(1690), together with the remaining 1P-wave baryon states. We obtain the resonant branching fraction B(Λb0 pK-π+π-) =(30.0+2.8+4.0-1.3-3.41.8)×10-6, while the resulting ACP(Λb0 pK-π+π-)=(3.180.110.130.11)\% provides a natural interpretation of the first observed baryonic CP asymmetry. Our analysis establishes the first comprehensive framework for quantifying the impact of excited baryon resonances in multi-body beauty-baryon decays, with the associated mechanism generally applicable to baryonic CP asymmetries.