Combined study of the isospin-violating decay D*s Ds π0 and radiative decay D*s Dsγ with intermediate meson loops

Abstract

We carry out a combined study of the isospin-violating decay Ds* Ds π0 and radiative decay D*s Dsγ in an effective Lagrangian approach by taking into account the corrections from the one-loop transitions. By distinguishing the transition mechanisms of the long-distance interactions through the intermediate meson loops from the short-distance interactions through the η-π0 mixing at the tree level the isospin-violating decay Ds* Ds π0 can be well constrained. In our approach the higher order corrections to the isospin-violating effects can involve the intermediate D(*) and K(*) scatterings. We find that the contributions from the destructive interference of intermediate meson loops via D(*)0(cu)K(*)+(us) and D(*)+(cd)K(*)0(ds) rescatterings are significant. Within the commonly accepted ultra-violet (UV) cutoff range we obtain the partial decay width [Ds* Ds π0] = 9.92+0.76-0.66\,eV. This approach allows us to describe the Ds* radiative decay in the same framework via the vector meson dominance (VMD) model. We demonstrate that both the tree-level and one-loop transitions can be self-consistently determined if we adopt the experimental data for the branching ratio fraction of Ds* Ds π0 to D*s Dsγ. It then leads to a reliable estimate of the total decay width of Ds*, i.e. total(Ds*+)=170+ 13-12\,eV.

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