📝 SummarXiv

Abstract

In this work, we revisit the $3S$-$2D$ mixing scheme for the charmonia $\psi(4040)$ and $\psi(4160)$. We introduce a coupled-channel mechanism-distinct from the tensor-force contribution in potential models, which alone is insufficient to induce significant mixing-to describe the mixing between these states. Our analysis yields mixing angles of $\theta_1=7^\circ$ and $\theta_2=10^\circ$, inconsistent with the larger angle inferred from experimental data, such as the di-lectronic widths of the $\psi(4040)$ and $\psi(4160)$. We discuss possible origins of this discrepancy and emphasize the need for future experiments to resolve it. Precise measurements of the resonance parameters and di-lectronic decay widths, via both inclusive and exclusive processes, will be crucial in clarifying this issue.