Nodal mechanism for the suppressed D D decay of (4040) in the Bethe--Salpeter framework

Abstract

The strong decay (4040) D D is anomalously suppressed despite ample phase space, whereas the D D* and Ds Ds channels remain sizable. In this work, we study this suppression and the associated open-charm hierarchy in the framework of the instantaneous Bethe--Salpeter equation combined with the relativistic 3P0 model, with the pair-creation strength fixed independently from (3770) D D. Within this framework, we show that the suppressed D D mode can be understood as a consequence of node-induced cancellations in the relativistic decay amplitude. The D D amplitude is strongly reduced because the corresponding overlap integral receives comparable positive and negative contributions from different momentum regions, whereas the D D* and Ds Ds channels do not undergo the same strong cancellation. This interpretation is further supported by the pronounced sensitivity of the D D width to the initial mass, the charged-neutral D-meson mass splitting, and the dip structure in the mass dependence of the partial width. Our results provide a dynamical explanation of the suppressed D D mode and the core open-charm hierarchy of (4040) within a conventional 3\,3S1 charmonium picture, while the precise value of the near-vanishing D D width remains model dependent.