Molecular state interpretation of charmed baryons in the quark model
Abstract
Stimulated by the observation of c(2910)+ by the Belle Collaboration, the S-wave qqqqc~(q=u~or~d) pentaquark systems with I = 0, JP = 12-,~32- and~52- are investigated in the framework of quark delocalization color screening model(QDCSM). The real-scaling method is utilized to check the bound states and the genuine resonance states. The root mean square of cluster spacing is also calculated to study the structure of the states and estimate if the state is resonance state or not. The numerical results show that c(2910) cannot be interpreted as a molecular state, and c(2800) cannot be explained as the ND molecular state with JP=1/2-. c(2595) can be interpreted as the molecular state with JP=12- and the main component is cπ. c(2625) can be interpreted as the molecular state with JP=32- and the main component is c*π. c(2940) is likely to be interpreted as a molecular state with JP=3/2-, and the main component is ND*. Besides, two new molecular states are predicted, one is the JP=3/2- c resonance state with the mass around 3140 MeV, another one is the JP=52- c* with the mass of 3188.3 MeV.
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