Production of Y(4260) as a hadronic molecule state of DD1 +c.c. in e+e- annihilations

Abstract

We study the Y(4260) production mechanism in e+e- annihilations in the framework of hadronic molecules and investigate the consequence of such a picture in different decay channels. In the hadronic molecule picture the Y(4260) is described as a mixture state composed of a long-ranged DD1(2420)+c.c. molecule state and a compact cc component. We show that the compositeness relation can still provide a reasonable constraint on the wavefunction renormalization parameter due to the dominance of the molecular component. Such a mechanism can be regarded as a natural consequence of the heavy quark spin symmetry (HQSS) breaking. This study elaborates the molecular picture for the Y(4260) in the e+e- annihilations and affirms that the cross section lineshape of e+e- DD*π+c.c. in the vicinity of the Y(4260) should have a nontrivial behavior. In this framework we predict that the upper limit of the Y(4260) leptonic decay width is about 500 eV. We also investigate the coupling for D1(2420) D*π in the 3P0 quark model and examine the possible HQSS breaking effects due to the deviation from the |1P1 and |3P1 ideal mixing. This will in turn provide a constraint on the HQSS breaking coupling for the Y(4260) to DD1(2420)+c.c. via its cc component.