What do the radiative decays of X(3872) tell us

Abstract

Since the discovery of X(3872), its structure has been in ceaseless dispute. The data of X(3872)→ π+π-π0 J/ suggest that X(3872) may be a high-spin charmonium-like of 2-+. In terms of the light front quark model (LFQM) we calculate the rates of the radiative decays X(3872)→ J/(')γ supposing X(3872) to be a 2-+ charmonium. Within this framework, our theoretical prediction on BR(X(3872)→(1S)γ) is at order of 10-3 which is slightly lower than the Babar's data but close to the Belle's. Our prediction on BR(X(3872)→'γ) is at order of 10-5 if ' is a pure 2S state or 10-4 if ' is a 2S-1D mixture, which does not conflict with the upper bound set by the Belle collaboration, but is much lower than the Babar's data. Thus if the future measurement decides the branching ratio of BR(X(3872)→'γ) to be much larger than 10-4, the 2-+ assignment for X(3872) should be ruled out.