Interpretation of Zc(4025) as the Hidden Charm Tetraquark States via QCD Sum Rules

Abstract

By using QCD Sum Rules, we found that the charged hidden charm tetraquark [c u][c d] states with JP = 1- and 2+, which are possible quantum numbers of the newly observed charmonium-like resonance Zc(4025), have masses of m1-c = (4.54 0.20) \, GeV and m2+c = (4.04 0.19) \, GeV. The contributions up to dimension eight in the Operator Product Expansion (OPE) were taken into account in the calculation. The tetraquark mass of JP = 2+ state was consistent with the experimental data of Zc(4025), suggesting the Zc(4025) state possessing the quantum number of JP = 2+. Extending to the b-quark sector, the corresponding tetraquark masses m1-b = (10.97 0.25) \, GeV and m2+b = (10.35 0.25) \, GeV were obtained, which are testable in future B-factories.