Search for hidden-charm pentaquark states in three-body final states

Abstract

The three pentaquark states, Pc(4312), Pc(4440) and Pc(4457), discovered by the LHCb Collaboration in 2019, are widely recognized as D()c hadronic molecules. Together with their four D(*)c partners dictated by heavy quark spin symmetry they present a complete multiplet of hadronic molecules of D()c(). It is widely recognized that to understand their nature, other discovery channels play an important role. In this work, we investigate two three-body decay modes of the D()c() molecules. The tree-level modes proceed via off-shell c() baryons, D()c() D()(c() cπ)D()cπ, while the triangle-loop modes proceed through Dc() J/ Nπ, ηcNπ via Dc() rescattering to J/ N and ηcN. Our results indicate that the decay widths of the Pc(4457) and D()c states into D()cπ are several MeV, as a result can be observed in the upcoming Run 3 and Run 4 of LHC. The partial decay widths into D()cπ of the Pc(4312) and Pc(4440) states range from tens to hundreds of keV. In addition, the partial decay widths of Dc molecules into J/ N π and ηc N π are several keV and tens of keV, respectively, and the partial decay widths of Dc molecules into J/ N π vary from several keV to tens of keV. These three-body decay modes of the pentaquark states are of great value to further observations of the pentaquark states and to a better understanding of their nature.