Unified coupled-channel description for the five near-threshold structures (3770), G(3900), R(3760), R(3780) and R(3810) from e+e- annihilation

Abstract

The recent observation of multiple near-threshold structures in e+e- annihilation-including (3770), G(3900), R(3760), R(3780), and R(3810)-reveals limitations in existing models of charmonium and exotic hadrons. In this paper, we propose a unified coupled-channel description that simultaneously incorporates all five near-threshold structures using parameters constrained by hadron spectroscopy. Our model accurately reproduces the line shapes in both DD and nonopen-charm hadron (nOCH) channels, resolves the asymmetric profile of (3770), and produces the G(3900) bump. We identify the R(3780) as the dominant manifestation of (3770), attribute R(3760) to DD nOCH rescattering and suggest that R(3810) arises from coupling between the (1D) state and the hcππ channel. The significant non-DD decay of (3770) is explained by its near-threshold position. This analysis provides a coherent, unquenched framework centered on a charmonium (1D) core for near-threshold phenomena and offers a predictive approach extendable to bottomonium systems and future data from Belle II.