The c c interaction above threshold and the radiative decay X(3872)→ J/γ

Abstract

Radiative decays of X(3872) are studied in single-channel approximation (SCA) and in the coupled-channel (CC) approach, where the decay channels D D* are described with the string breaking mechanism. In SCA the transition rate 2=(2\,3P1 → γ)=71.8~keV and large 1=(2\,3P1→ J/γ)=85.4~keV are obtained, giving for their ratio the value Rγ=21=0.84. In the CC approach three factors are shown to be equally important. First, the admixture of the 1\,3P1 component in the normalized wave function of X(3872) due to the CC effects. Its weight c X(E R)=0.200 0.015 is calculated. Secondly, the use of the multipole function g(r) instead of r in the overlap integrals, determining the partial widths. Thirdly, the choice of the gluon-exchange interaction for X(3872), as well as for other states above threshold. If for X(3872) the gluon-exchange potential is taken the same as for low-lying charmonium states, then in the CC approach 1= (X(3872)→ J/γ) 3~keV is very small, giving the large ratio Rγ=B(X(3872)→ (2S)γ)B(X(3872)→ J/γ) 1.0. Arguments are presented why the gluon-exchange interaction may be suppressed for X(3872) and in this case 1=42.7~keV, 2= 70.5~keV, and Rγ=1.65 are predicted for the minimal value c X( min)=0.185, while for the maximal value c X=0.215 we obtained 1=30.8~keV, 2=73.2~keV, and Rγ=2.38, which agrees with the LHCb data.