Fully-strange tetraquark ssss spectrum and possible experimental evidence

Abstract

In this work we construct 36 tetraquark configurations for the 1S-, 1P-, and 2S-wave states, and make a prediction of the mass spectrum for the tetraquark ssss system in the framework of a nonrelativistic potential quark model without the diquark-antidiquark approximation. The model parameters are well determined by our previous study of the strangeonium spectrum. We find that the resonances f0(2200) and f2(2340) may favor the assignments of ground states T(ssss)0++(2218) and T(ssss)2++(2378), respectively, and the newly observed X(2500) at BESIII may be a candidate of the lowest mass 1P-wave 0-+ state T(ssss)0-+(2481). Signals for the other 0++ ground state T(ssss)0++(2440) may also have been observed in the φφ invariant mass spectrum in J/γφφ at BESIII. The masses of the JPC=1-- Tssss states are predicted to be in the range of 2.44-2.99 GeV, which indicates that the φ(2170) resonance may not be a good candidate of the Tssss state. This study may provide a useful guidance for searching for the Tssss states in experiments.