Charm-meson Triangle Singularity in e+e- Annihilation into D*0 D0 + γ

Abstract

We calculate the cross section for e+ e- annihilation into D*0 D0 +γ at center-of-mass energies near the D*0 D*0 threshold under the assumption that X(3872) is a weakly bound charm meson molecule. The Dalitz plot has a D*0 resonance band in the squared invariant mass t of D0 γ. In the limit as the decay width of the D*0 goes to 0, the Dalitz plot also has a narrow band in the squared invariant mass u of D*0 D0 from a charm-meson triangle singularity. At the physical value of the D*0 width, the narrow band reduces to a shoulder. Thus the triangle singularity cannot be observed directly as a peak in a differential cross section as a function of u. It may however be observed indirectly as a local minimum in the t distribution for events with u below the triangle singularity. The minimum is produced by the Schmid cancellation between triangle loop diagrams and a tree diagram. The observation of this minimum would support the identification of X(3872) as a weakly bound charm meson molecule.