Classifying the hidden-charm pentaquarks via a flavor mixing scheme

Abstract

In this work, we propose a scheme to classify the molecular states consisting of ground single-charm baryons (Λc, Ξc, Σc(*), Ξc(*), Ωc(*)) and D(*)/Ds(*) mesons. Within this framework, all considered baryon-meson systems are categorized according to the flavor components of their light degrees of freedom. We briefly illustrate how this classification scheme can consistently explain the experimentally observed Pc and Pcs states. This framework also predicts the existences of single-strange and double-strange hidden-charm bound states. The attractive interactions of these states arise from channel mixing between Σc(*)Ds(*) and Ξc(*)D(*) for single-strange systems, and mixing between Ξc(*)Ds(*) and Ωc(*)D(*) for double-strange systems, respectively. Using parameters fitted from the measured Pc and Pcs states, we systematically present the predicted mass spectra for these single- and double-strange hidden-charm bound states.

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