Prediction of QQqqs molecular pentaquarks within the extended local hidden gauge approach

Abstract

We investigate hadronic molecular states with the quark contents ccqqs, bbqqs, and bcqqs (q=u,d) by employing the extended local hidden gauge approach. Considering that the S-wave meson-baryon interactions are dominated by vector meson exchange, the coupled channels scattering amplitudes are obtained by solving the Bethe-Salpeter equation in its on-shell form. We find that the poles appearing on the complex Riemann sheet are potential candidates for dynamically generated molecular pentaquark states. The results suggest the existence of a total of fourteen molecular states with quantum numbers I(JP)=0(1/2-), 0(3/2-), and 0(5/2-), which arise from the interactions of the K(*)cc(*), K(*)bb(*), K(*)bc(*), and K(*)bc' channels, respectively. Their binding energies are calculated to be about 0.1-33 MeV, and this range depends on the free parameter of the theory. Our research contributes to the spectroscopic studies of hadronic molecular pentaquark states.