S- and P-wave fully-strange tetraquark states from QCD sum rules

Abstract

We apply the QCD sum rule method to systematically study the S- and P-wave fully-strange tetraquark states within the diquark-antidiquark picture. We systematically construct their interpolating currents by explicitly adding the covariant derivative operator. Our results suggest that the f0(2100), X(2063), and f2(2010) may be explained as the S-wave s s s s tetraquark states with the quantum numbers JPC = 0++, 1+-, and 2++, respectively. Our results also suggest that both the X(2370) and X(2500) may be explained as the P-wave s s s s tetraquark states of JPC = 0-+, and both the φ(2170) and X(2400) may be explained as the P-wave s s s s tetraquark states of JPC = 1--. The masses of the s s s s tetraquark states with the exotic quantum number JPC = 1-+ are extracted from two non-correlated currents to be 2.45+0.20-0.25 GeV and 2.49+0.21-0.25 GeV.