Simultaneous Dalitz-plot decomposition of the e+ e- J/ψ\, π\, π\, (K K) processes in the 4.13-4.36 GeV region using dispersive final-state interactions

Abstract

We present a joint analysis of the processes e+e- J/ψπ+π- and e+e- J/ψK+K- at center-of-mass energies from 4.13 to 4.36 GeV. The amplitudes are constructed using the Dalitz-plot decomposition formalism, with the e+e- energy dependence encoded through the Y(4220) and Y(4320) resonant structures together with a non-resonant production mechanism. The scalar ππ/K K final-state interaction is treated dispersively using a coupled-channel Omnès representation. This allows us to describe the measured total cross sections and one-dimensional invariant-mass distributions with a single set of energy-independent parameters. We find that a purely resonant description of the BESIII data is insufficient, requiring a non-resonant term at the amplitude level which undergoes ππ/KK rescattering. Within the present isobar model, we extract Breit-Wigner parameters for the Zc(3900), Y(4220), and Y(4320) states, and determine the corresponding subprocess cross sections.