Two-Body Strong Decay of the 2P and 3P Charmonium states

Abstract

Two-body open charm strong decays of the 2P and 3P charmonium states are studied by the Bethe-Salpeter(BS) method combined with the 3P0 model. The wave functions and mass spectra of the 2P and 3P charmonium states are obtained by solving the BS equation with the relativistic correction. The strong decay widths and relative ratios of the 2P and 3P charmonium states are calculated. Comparing our results with the experimental data, we obtain some interesting results. Considering the X*(3860) as the c0(2P), the total strong decay width is smaller than the experimental data. But the strong decay width depends on the parameter γ in the 3P0 model, and the mass and width of the X*(3860) have large errors, we cannot rule out the possibility that the X*(3860) is the c0(2P). The X(4160) is a good candidate for the c0(3P), not only the strong decay width of the c0(3P) is same as the experimental data, but the relative ratios (c0(3P) D D)(c0(3P) D* D*)≈0.0019<0.09, and (c0(3P) D D*)(c0(3P) D* D*)=0<0.22 are consistent with the experimental results of the X(4160). Taking the X(4274) as the c1(3P), the strong decay width is consistent with the experimental data, so the X(4274) is a good candidate for the c1(3P). Assigning the X(4350) as the c2(3P), the corresponding strong decay width is slightly larger than the experimental data. To identify if the X(4350) is c2(3P), many more investigations are needed. All of the strong decay widths and relative ratios of the 2P and 3P charmonium states can provide the useful information to discover and confirm these particles in the future.