The newly observed state Ds0(2590)+

Abstract

We choose the Reduction Formula, PCAC and Low Energy Theory to reduce the S matrix of a OZI allowed two-body strong decay involving a light pseudoscalar, the covariant transition amplitude formula with relativistic wave functions as input is derived. After confirm this method by the decay D*(2010) Dπ, we study the newly observed Ds0(2590)+ with supposing it to be the state Ds(21S0)+, we find its decay width is highly sensitive to the Ds0(2590)+ mass, which result in the meaningless comparison of widths by different models with various input masses. Instead of width, we studied the overlap integral over the wave functions of initial and final states, here we parameterized it as X which is model-independent, and the ratio /| Pf|3, both are almost mass independent, to give us useful information. The results show that, all the existing theoretical predictions XDs(2S) D*K=0.25 0.41 and /| Pf|3=0.811.77 MeV-2 are smaller than experimental data 0.585+0.015-0.035 and 4.54+0.25-0.52 MeV-2. Further compared with XexD*(2010) Dπ=0.5400.009, the current data XexDs(2S) D*K=0.585+0.015-0.035 is too big to be an reasonable value, so it is early to say Ds0(2590)+ is the conventional Ds(21S0)+ meson.