Coupled-channel Omn\`es matrix for the $D$-wave isoscalar $\pi\pi/K\bar K$ system and its application to $J/\psi\to\pi^{0}\pi^{0}\gamma,\,K_{S}K_{S}\gamma$

11 Jun 2026, 12:05
20m
Scuola Normale Superiore, Aula Dini, Palazzo del Castelletto (Pisa)

Scuola Normale Superiore, Aula Dini, Palazzo del Castelletto

Pisa

Via del Castelletto, 11, 56126 Pisa PI

Speaker

Igor Danilkin (Johannes Gutenberg University of Mainz)

Description

In this work, we construct the $D$-wave isoscalar $\pi\pi/K\bar K$ 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 $f_{2}(1270)$ and $f_{2}'(1525)$ resonances. The resulting unitary scattering matrix, which reproduces the experimental $\pi\pi\to\pi\pi$ and $\pi\pi\to K\bar K$ 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 $\pi\pi\to K\bar K$ 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 $J/\psi\to\pi^{0}\pi^{0}\gamma$ and $J/\psi\to K_{S}K_{S}\gamma$ spectra in the $J=2$ electric-dipole (E1) partial wave. e-Print: 2512.23669 (accepted to PLB)

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Author

Igor Danilkin (Johannes Gutenberg University of Mainz)

Co-authors

Prof. Emilie Passemar (Indiana University) Prof. Marc Vanderhaeghen (Johannes Gutenberg University of Mainz)

Presentation materials