Constructing the JP(C)=1-(+) light flavor hybrid nonet with the newly observed η1(1855)

Abstract

The recently discovered η1(1855) and the previously observed π1(1600) state present a valuable opportunity for the investigation of the JP(C)=1-(+) light hybrid nonet. In this study, we employ a semirelativistic quark potential model to examine the masses of the JP(C)=1-(+) light hybrid states. The static potential, which portrays the confinement force between the quark-antiquark pair in a hybrid system, is borrowed from the SU(3) lattice gauge theory. Additionally, we utilize a constituent gluon model to analyze the strong decay characteristics of these light 1-+ hybrids. Our findings suggest that the π1(1600) and η1(1855) states could be potential candidates for 1-+ (uu-dd)g/2 and ssg hybrids, respectively. To ensure comprehensiveness, we also investigate the isospin partners of the π1(1600) and η1(1855) states within the 1-(+) nonet-specifically, the (uu+dd)g/2 and sqg (q=u and d quarks) states. We propose some potential decay channels which could be explored in experimental settings to detect these undiscovered states.