The ratio of decay widths of X(3872) to γ and J/γ as a test of the X(3872) dynamical structure

Abstract

Radiative decays of X(3872) with JPC=1++ are studied in the coupled-channel approach, where the c c states are described by relativistic string Hamiltonian, while for the decay channels DD* a string breaking mechanism is used. Within this method a sharp peak and correct mass shift of the 2 3P1 charmonium state just to the D0D*0 threshold was already obtained for a prescribed channel coupling to the DD* decay channels. For the same value of coupling the normalized wave function (w.f.) of X(3872) acquires admixture of the 1 3P1 component with the w.f. fraction c1=0.153 (θ=8.8), which increases the transition rate (X(3872)→ J/γ) up to 50-70 keV, making the ratio R=B(X(3872)→ γ)B(X(3872)→ J/ γ)=0.8 0.20 (th) significantly smaller, as compared to R 5 for X(3872) as a purely 2 3P1 state.