The hadronic coupling constants of the lowest hidden-charm pentaquark state with the QCD sum rules in rigorous quark-hadron duality

Abstract

In this article, we illustrate how to calculate the hadronic coupling constants of the pentaquark states with the QCD sum rules based on rigorous quark-hadron quality, then study the hadronic coupling constants of the lowest diquark-diquark-antiquark type hidden-charm pentaquark state with the spin-parity JP=12- in details, and calculate the partial decay widths. The total width (Pc)=14.323.31\,MeV is compatible with the experimental value Pc(4312) = 9.82.7+ 3.7- 4.5 MeV from the LHCb collaboration, and favors assigning the Pc(4312) to be the [ud][uc]c pentaquark state with the JP=12-. The hadronic coupling constants have the relation |GPD-c++|= 2|GPD0c+| |GPD0c+|, and favor the hadronic dressing mechanism. The Pc(4312) maybe have a diquark-diquark-antiquark type pentaquark core with the typical size of the qqq-type baryon states, the strong couplings to the meson-baryon pairs Dc lead to some pentaquark molecule components, and the Pc(4312) maybe spend a rather large time as the Dc molecular state.