Doubly charmed pentaquark states in QCD sum rules

Abstract

We have studied the mass spectra of doubly charmed pentaquark states in the c(*)D(*) and c(*)D(*) channels with JP=1/2, 3/2 and 5/2 within the framework of QCD sum rules. We use the parity projected sum rules to separate the contributions of negative and positive parities from the two-point correlations induced by the pentaquark interpolating currents. Our results show that the bound states of Pcc pentaquarks may exist in the cD\, (12-), cD\, (12-), cD*\, (32-), c*D\, (32-), c*D*\, (52-) channels with negative-parity and cD\, (12+), cD\, (32+), c D\, (32+) channels with positive-parity, since their masses are predicted to be lower than the corresponding meson-baryon thresholds. However, they are still allowed to decay into the cc()π final states via strong interaction. The triply charged Pcc+++(ccuu d) and neutral Pcc0(ccdd u) in the isospin quartet would definitely be pentaquark states due to their exotic charges. We suggest searching for these characteristic doubly charmed pentaquark signals in the Pcc+++cc() ++π+/+, c()++D()+ and Pcc0cc() +π-/-, c()0D()0 decays in the near future.