Discovery potential of charmonium 2P states through the e^+e^- to γ Dbar{D} processes
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In this work, we investigate the production of charmonium $2P$ states via the $e^+e^-\to \gamma D\bar{D}$ process at $\sqrt{s} = 4.23$ GeV. Using the measured cross-section data for $e^+e^-\to \gamma X(3872)$ as a reference, we calculate the cross sections for $e^+e^-\to \gamma \chi_{c0}(2P)$ and $e^+e^-\to \gamma \chi_{c2}(2P)$. Since the $\chi_{c0}(2P)$ and $\chi_{c2}(2P)$ states predominantly decay into $D\bar{D}$ final states, we also predict the corresponding $D\bar{D}$ invariant mass spectrum for the $e^+e^-\to \gamma D\bar{D}$ process. Our results indicate that $e^+e^-\to \gamma D\bar{D}$ is an ideal process for identifying the $\chi_{c0}(2P)$ and $\chi_{c2}(2P)$ states, analogous to the $\gamma\gamma\to D\bar{D}$ and $B^+\to D^+D^-K^+$ processes. This study highlights the discovery potential of charmonium $2P$ states at BESIII and Belle II.
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Proposed mixing between $2P$ and $1F$ wave charmonia
Unquenched calculation finds sizable 2P-1F mixing in charmonium with angles 7.5° and 15.4°, yielding predictions for two-photon and two-gluon decay widths.
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