Within the framework of the one-boson-exchange model, we systematically perform a coupled channel analysis of the P-wave interactions between a charm baryon and light baryon, the involved channels include ΞcN, ΛcΣ, Ξc^N, ΣcΛ, Ξc^*N, Σc^*Λ, ΣcΣ, and Σc^*Σ. Our results can predict several possible molecular candidates, such as a Ξc^N molecule with I (JP) =0 (1^-), Ξc^*N molecules with 0 (0^-, 1^-, 2^-), ΣcΣ molecules with 0 (1^-) and 1 (1^-), and Σc^*Σ molecules with 0 (0^-, 1^-, 2^-), and 1 (2^-). The coupled channel effects significantly influence the formation of the ΣcΣ molecule with 1 (1^-). Furthermore, we analyze the phase shifts for these coupled channel systems. Our analysis not only confirms the existence of the predicted molecules but also identifies potential resonant dibaryons, including a ΣcΣ shape-type resonance with 1 (1^-), a Σc^*Σ shape-type resonance with 1 (0^-), a ΛcΣ/ΣcΣ coupled Feshbach-type resonance with 1 (1^-), and ΛcΣ/Σc^*Σ coupled Feshbach-type resonances with 1 (0^-, 2^-).
Cui et al. (Thu,) studied this question.
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