Comprehending Isospin breaking effects of X(3872) in a Friedrichs-model-like scheme

Abstract

Recently, we have shown that the X(3872) state can be naturally generated as a bound state by incorporating the hadron interactions into the Godfrey-Isgur quark model using the Friedrichs-like model combined with the QPC model, in which the wave function for the X(3872) as a combination of the bare c c state and the continuum states can also be obtained. Under this scheme, we now investigate the isospin breaking effect of X(3872) in its decays to J/π+π- and J/π+π-π0. By Considering its dominant continuum parts coupling to J/ and J/ω through the quark rearrangement process, one could obtain the reasonable ratio of B(X(3872)→ J/π+π-π0)/B(X(3872)→ J/π+π-) (0.58 0.92). It is also shown that the D D* invariant mass distributions in the B→ D D* K decays could be understood qualitatively at the same time. This scheme may provide more insight to understand the enigmatic nature of the X(3872) state.