The role of the ω(4S) and ω(3D) states in mediating the e+e- ωη and ωπ0π0 processes
Abstract
The e+e- ωη and e+e-ωπ0π0 processes are ideal platforms to search for higher ω states. Focusing on the observations of two enhancement structures around 2.2 GeV existing in e+e- ωη and e+e-ωπ0π0 at BESIII, we analyze how the ω(4S) and ω(3D) states play the role in the e+e- ωη and e+e-ωπ0π0 processes. The present study is supported by theoretical ω mesonic spectroscopy. For reproducing the data of the cross sections of e+e-ωη and ωπ0π0, the intermediate ω(4S) and ω(3D) should be introduced, which indicates that the enhancement structures around 2.2 GeV existing in e+e-ωη and ωπ0π0 contain the ω(4S) and ω(3D) signals. Nonetheless, in the process e+e-ωη, the ω(4S) plays a dominant role, while the ω(4S) and ω(3D) have similar sizable contributions in the process of e+e-ωπ0π0, which leads to a difference in the line shape of enhancement structure in the cross sections under the interference effect. Thus, we find a solution to alleviate the puzzling difference of resonance parameter of two reported enhancement structures around 2.2 GeV existing in e+e- ωη and e+e-ωπ0π0 at BESIII. The present study provides valuable information to construct ω meson family, which can be accessible at future experiment like BESIII.
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