Production potential of hidden-strange molecular pentaquarks through the π-p→ K* process

Abstract

In this study, applying the effective Lagrangian approach, we investigate the reaction π-p→ K* to explore the production of the hidden-strange molecular pentaquarks Pss. Specifically, we analyze two scenarios, where the JP quantum numbers of Pss are 3/2- and 1/2-. Our results show that the contribution from s-channel Pss exchange dominates the total cross section, surpassing those from t-channel K(*) exchange and u-channel exchange. Additionally, we present predictions for the differential cross section of the π-p→ K* process. Finally, we extend the 2-to-2 scattering process to the 2-to-3 Dalitz process and provide theoretical predictions for this scenario. Our findings suggest that the cross section for the π-p → K*→ K+π-0 process can reach several tens of μ b near the threshold, making it highly favorable for experimental measurement. However, the current scarcity of experimental data for the π-p→ K* reaction at threshold energy limits our ability to determine the properties of the hidden-strange molecular pentaquarks Pss and related physical quantities. Therefore, additional experimental measurements of the π-p → K* reaction at threshold are strongly encouraged, and correlation studies could be pursued at facilities such as J-PARC, AMBER, and upcoming HIKE and HIAF meson beam experiments.