Predicting another doubly charmed molecular resonance Tcc+(3876)

Abstract

The isospin breaking effect plays an essential role in generating hadronic molecular states with a very tiny binding energy. Very recently, the LHCb Collaboration observed a very narrow doubly charmed tetraquark Tcc+ in the D0D0π mass spectrum, which lies just below the D0D*+ threshold around 273 keV. In this work, we study the D0D*+/D+D*0 interactions with the one-boson-exchange effective potentials and consider the isospin breaking effect carefully. We not only reproduce the mass of the newly observed Tcc+ very well in the doubly charmed molecular tetraquark scenario, but also predict the other doubly charmed partner resonance Tcc+ with m=3876~MeV, and = 412~keV. The prime decay modes of the Tcc+ are D0D+γ and D+D0π0. The peculiar characteristic mass spectrum of the D0D*+/D+D*0 molecular systems can be applied to identify the doubly charmed molecular states.