Radiative decays of the spin-2 partner of X(3872)

Abstract

It has been generally expected that the X(3872) has a spin-2 partner, X2, with quantum numbers JPC=2++. In the hadronic molecular model, its mass was predicted to be below the D* D* threshold, and the new structure reported in the γ (2S) invariant mass distribution by the Belle Collaboration with mass M= (4014.3 4.0 1.5) MeV and decay width = (4 11 6) MeV, with a global significance of 2.8 σ, is a nice candidate for it. We consider the radiative decay widths for the X2 γ with =J/, (2S) treating the X2 as a D*D* shallow bound state, and estimate the events of X2 in two-photon collisions that can be collected in the γ J/γ+- (=e,μ) final states at Belle. Based on the upper limit for the ratio of decay widths of X(3872) γ (2S) and X(3872) γ J/ measured by BESIII, we predict the similar ratio (X2 γ (2S))/(X2 γ J/) to be smaller than 1.0. We suggest searching for the X2 signal in the γ J/ invariant mass distribution via two-photon fusions. The results will lead to insights into both the X(3872) and the new structure observed by Belle.