Confirming the existence of a new higher charmonium (4500) by the newly released data of e+e- K+K- J/
Abstract
Recently, the BESIII Collaboration published the Born cross section of e+e- K+K- J/, in which a new vector enhancement structure Y(4500) was observed for the first time. The mass of the Y(4500) resonance structure is in good agreement with our previous prediction for a 5S-4D mixing charmonium candidate (4500), while the measured width is 2σ larger than the theoretical estimate. In this work, we reanalyzed the cross section of e+e- K+K- J/ by introducing two theoretically predicted charmonium states (4220) and (4500) as intermediate resonances, and found that this width deviation problem can be resolved. Meanwhile, we found that the inclusion of two established charmonium states (4160) and (4415) can further improve the fit quality, with four sets of widely different solutions to e+e- B( K+K- J/). In order to better identify the properties of the Y(4500), we calculated the charmonium hadronic transition to final states K+K- J/ within the charmed meson loop mechanism, where the fitted branching ratio of (4500) K+K- J/ can be well explained by the theoretical calculation, further supporting the new enhancement structure around 4.5 GeV as a higher charmonium (4500) that we predicted. Finally, we also discussed the possible signal of another predicted charmonium candidate (4380) in e+e- K+K- J/. These research results should be an important step in constructing the charmonium family and thoroughly solving the charmoniumlike Y problem.
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