A hybrid nonet with JPC=1-+ or a tetraquark 81-plet

Abstract

Confirming the existence of hybrid states remains challenging due to their experimental indistinguishability from tightly bound tetraquarks and loosely bound molecules. To address this issue, we employ QCD sum rules to systematically investigate the π1(1600) and η1(1855) as candidate tetraquark states with exotic quantum numbers JPC = 1-+. Within the hybrid framework, an SU(3) flavor nonet is expected, featuring two isoscalar configurations, qqg and ssg, where q = u/d. In contrast, the tetraquark scenario predicts an SU(3) flavor 81-plet comprising three isoscalar states: qqqq, qsqs, and ssss. Our analysis yields a mass of 2.22+0.18-0.26 GeV for the ssss tetraquark state, which is expected to decay predominantly into the φφ and η f1(1420) final states. Therefore, experimental scrutiny of their invariant mass spectra is pivotal for distinguishing between hybrid and tetraquark interpretations.