Phenomenological description of the D*s0(2317) Dsπ0 decay

Abstract

For coupled channels D0K+, D+K0, Ds+η, and Ds+π0, the S-wave scattering amplitudes are constructed taking into account the mixing of the isoscalar resonance D*s0(2317)+ with nonresonance amplitudes with isospin I=1. The phenomenological approach we use allows us to quite simply clear up the general structure of the D*s0(2317)+ Ds+π0 decay amplitude violating isospin. We show that the phase of this amplitude coincides with the phase of the nonresonanct Ds+π0 scattering amplitude in agreement with the Watson theorem. Its modulus squared, as it should be, determines the width of the resonance peak in the Ds+π0 channel. Taking into account the π0-η mixing in internal lines up to the second order inclusively ensures that the unitarity condition is fulfilled. The presented analysis complements the description of the D*s0(2317 )+ Ds+π0 decay based on the coupled channel unitarized chiral perturbation theory. The numerical estimates obtained by us for the D*s0(2317)+ Ds+π0 decay width do not contradict those available in the literature.