Light single-gluon hybrid states with various (exotic) quantum numbers

Abstract

We apply the QCD sum rule method to study the light single-gluon hybrid states with various (exotic) quantum numbers. We construct twenty-four single-gluon hybrid currents, and use eighteen of them to calculate the masses of forty-four single-gluon hybrid states with the quark-gluon contents q q g (q=u/d) and s s g. We concentrate on the hybrid states with the exotic quantum number JPC = 1-+, whose masses and widths are calculated to be M| q q g;1-1-+ =1.67+0.15-0.17 GeV, | q q g;1-1-+ = 530+540-330 MeV, M| q q g;0+1-+ = 1.67+0.15-0.17 GeV, | q q g;0+1-+ = 120+160-110 MeV, M| s s g;0+1-+ = 1.84+0.14-0.15 GeV, and | s s g;0+1-+ = 100+110-~80 MeV. Our results support the interpretations of the π1(1600) and η1(1855) as the hybrid states | q q g;1-1-+ and | s s g;0+1-+, respectively. Considering the uncertainties, our results suggest that the π1(1600) and η1(1855) may also be interpreted as the hybrid states | q q g;1-1-+ and | q q g;0+1-+, respectively. To differentiate these two assignments and to verify whether they are hybrid states or not, we propose to examine the a1(1260) π decay channel in future experiments.

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