Producing Λ(1405) and Λ(1520) in π-p reaction to explore their inner structures

Abstract

In this work, the production mechanisms of the hyperon resonances Λ(1405) and Λ(1520) in the π- p scattering are investigated within an effective Lagrangian approach incorporating Regge trajectories. By including contributions from t-channel K* and u-channel Σ exchanges, we perform global fits to the total and differential cross sections for π- p → KΛ(1405) and π- p → KΛ(1520). The results show good agreement with available experimental data. For the total cross section of Λ(1405) production, the u-channel contribution is dominant, whereas the t-channel contribution plays the primary role in Λ(1520) production. Furthermore, the differential cross sections of the two processes exhibit distinctly different shapes, reflecting their distinct underlying reaction mechanisms. An analysis based on the constituent counting rule indicates that Λ(1520) is consistent with a conventional three-quark configuration, while Λ(1405) shows a clear deviation, suggesting a more exotic structure. Owing to the large branching ratio of Λ* πΣ, the Dalitz process π- p → K Λ* → K πΣ is also calculated. Our results demonstrate that reconstructing Λ* via the KπΣ final state is experimentally feasible. This study provides important theoretical insights into the production dynamics of these hyperon resonances, and suggests future high-precision measurements of the t-distribution at large momentum transfer at facilities such as AMBER, J-PARC, HIKE, and HIAF, which can further clarify their reaction mechanisms and structural properties.