Role of 4S-3D mixing in explaining the ω-like Y(2119) observed in e+e-π and (1450)π

Abstract

The BESIII Collaboration has recently reported a new resonance structure in the cross-section analyses of the e+e- π and e+e- (1450)π processes, displaying characteristics akin to an ω-meson. However, its measured mass, M = 2119 11 15 \, MeV, significantly deviates from the predictions of the unquenched relativized potential model for conventional ω vector meson spectroscopy. To address this discrepancy, we propose a 4S-3D mixing scheme and investigate the corresponding decay properties within this framework. Our analysis demonstrates that the mixed state ω4S-3D exhibits excellent agreement with the observed resonance, not only in mass and width but also in the products of its dielectron width and branching ratios, e+e-R×BRπ and e+e-R×BR(1450)ππ+π-π0. The determined mixing angle, θ = -(31.1+2.1-3.1), strongly supports the interpretation of this structure as the ω4S-3D state. Furthermore, we predict dominant decay channels for ω4S-3D and its partner state ω4S-3D. These predictions, together with the proposed mixing mechanism, provide crucial guidance for future experimental studies aimed at probing this structure and rigorously testing the 4S-3D mixing hypothesis.

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