The singly-charmed pentaquark molecular states via the QCD sum rules

Abstract

In this work, we systematically investigate the singly-charmed pentaquark molecular states D(*)N, D(*)(*) and Ds(*)(*) with the QCD sum rules by carrying out the operator product expansion up to the vacuum condensates of dimension 13 and taking fully account of the light-flavor SU(3) breaking effects. The numerical results favor assigning the c(3185) as the D molecular state with the JP=12- and | I,I3 =| 0,0 , assigning the c(3327) as the D* molecular state with the JP=32- and |I,I3 =| 0,0 , assigning the c(2800) as the DN molecular state with the JP=12- and | I,I3 =| 1,0 , and assigning the c(2940)/c(2910) as the D*N molecular state with the JP=32- and | I,I3 =| 0,0 . Other potential molecule candidates are also predicted, which may be observed in future experiments. For example, we can search for the D and D* molecular states with the isospin | I,I3 =| 1,1 \, in the c+K0 and c0K- mass spectrum respectively in the future, which could shed light on the nature of the c(3185/3327).