Coupled-channel Omn\`es matrix for the D-wave isoscalar ππ/K K system and its application to J/π0π0γ,\,KSKSγ

Abstract

In this work, we construct the D-wave isoscalar ππ/K K coupled-channel Omn\`es matrix, formulated to satisfy unitarity, analyticity, and the appropriate asymptotic behavior. We employ a two-channel K-matrix model containing poles associated with the f2(1270) and f2'(1525) resonances. The resulting unitary scattering matrix, which reproduces the experimental ππππ and ππ K K data and PDG information, serves as input to the homogeneous two-channel Muskhelishvili-Omn\`es equation. We compare our Omn\`es matrix with previous constructions based on ππ K K phases extracted from sums of Breit-Wigner amplitudes. The Omn\`es matrix developed here provides a reliable dispersive input for form-factor calculations and resonance studies in the tensor-meson sector. As an application, we show that it enables a simultaneous and accurate description of the BESIII J/π0π0γ and J/ KSKSγ spectra in the J=2 electric-dipole (E1) partial wave.

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