Isospin breaking, coupled-channel effects, and X(3872)

Abstract

We re-investigate the possibility of X(3872) as a DD* molecule with JPC=1++ within the framework of both the one-pion-exchange (OPE) model and the one-boson-exchange (OBE) model. After careful treatment of the S-D wave mixing, the mass difference between the neutral and charged D(D*) mesons and the coupling of the D(D*) pair to D*D*, a loosely bound molecular state X(3872) emerges quite naturally with large isospin violation in its flavor wave function. For example, the isovector component is 26.24% if the binding energy is 0.30 MeV, where the isospin breaking effect is amplified by the tiny binding energy. After taking into account the phase space difference and assuming the 3π and 2π come from a virtual omega and rho meson respectively, we obtain the ratio of these two hidden-charm decay modes: B(X(3872)→ π+π-π0 J/)/B(X(3872)→ π+π- J/)=0.42 for the binding energy being 0.3 MeV, which is consistent with the experimental value.