Pionic transitions of the spin-2 partner of X(3872) to cJ

Abstract

We investigated the pionic transitions between the X2 [spin-2 partner of the X(3872)] and c1,2 using a nonrelativistic effective field theory. The X2 is assumed to be a bound state of the D* and D* mesons and to decay through several kinds of loops, including the bubble, triangle and box loops. Within the present model, the widths for the single-pion decays X2π0cJ are predicted to be about 3--30 keV. For the dipion decays, the widths are a few keVs. These widths yield a branching fraction of 10-3--10-2. The ratio Rc0= (X2π+π-cJ)/ (X2π0π0cJ) 1.6, which is a bit smaller than the expected value of 2, and R21= (X2ππc2)/ (X2ππc1) 0.85. These ratios are nearly independent of the X2 mass and the coupling constants, which might be a good quantity for the experiments. Moreover, the invariant mass spectra of the π0cJ final state for the dipion processes are presented, showing a cusp structure at the D D* threshold enhanced and narrowed by the nearby triangle singularity.