Probing hidden-charm pentaquarks from the πN→ J/ψN reaction

Abstract

We investigate the dynamical generation of hidden-charm pentaquark resonances in the πN J/ψN reaction utilizing an off-shell coupled-channel formalism. Motivated by the absence of pentaquark signals in J/ψ photoproduction, we evaluate rescattering effects with two-body kernel amplitudes constructed from effective Lagrangians that explicitly incorporate t-channel meson and u-channel baryon exchanges. We demonstrate that the u-channel Λc exchange, of which an analogous contribution is absent in the photoproduction kernel, greatly enhances the rescattering contributions through the D(*)Σc intermediate states. Consequently, the D(*)Σc(*) channels yield contributions of comparable magnitude to the D(*)Λc channels, directly leading to prominent pentaquark signals. The partial-wave analysis reveals that the Pcc(4312) and Pcc(4457) states emerge as clear peak structures with JP=1/2- and 3/2-, respectively. In contrast, the Pcc(4380) and JP=5/2- states are strongly suppressed because the Λc exchange does not provide the required tensor interactions. The result for the total cross section reaches the microbarn level at the peak positions.