Highly excited and exotic fully-strange tetraquark states

Abstract

Some hadrons have the exotic quantum numbers that the traditional q q mesons and qqq baryons can not reach, such as JPC = 0--/0+-/1-+/2+-/3-+/4+-, etc. We investigate for the first time the exotic quantum number JPC=4+-, and study the fully-strange tetraquark states with such an exotic quantum number. We systematically construct all the diquark-antidiquark interpolating currents, and apply the method of QCD sum rules to calculate both the diagonal and off-diagonal correlation functions. The obtained results are used to construct three mixing currents that are nearly non-correlated, and we use one of them to extract the mass of the lowest-lying state to be 2.85+0.19-0.22 GeV. We apply the Fierz rearrangement to transform this mixing current to be the combination of three meson-meson currents, and the obtained Fierz identity suggests that this state dominantly decays into the P-wave φ(1020) f2(1525) channel. This fully-strange tetraquark state of JPC=4+- is a purely exotic hadron to be potentially observed in future particle experiments.