Masses and widths of scalar-isoscalar multi-channel resonances from data analysis

Abstract

Peculiarities of obtaining parameters for broad multi-channel resonances from data are discussed analyzing the experimental data on processes ππππ,KK in the IGJPC=0+0++ channel in a model-independent approach based on analyticity and unitarity and using an uniformization procedure. We show that it is possible to obtain a good description of the ππ scattering data from the threshold to 1.89 GeV with parameters of resonances cited in the PDG tables as preferred. However, in this case, first, representation of the ππ background is unsatisfactory; second, the data on the coupled process ππ KK are not well described even qualitatively above 1.15 GeV when using the resonance parameters from the only ππ scattering analysis. The combined analysis of these coupled processes is needed, which is carried out satisfactorily. Then both above-indicated flaws, related to the analysis of solely the ππ-scattering, are cured. The most remarkable change of parameters with respect to the values of only ππ scattering analysis appears for the mass of the f0 (600) which is now in some accordance with the Weinberg prediction on the basis of mended symmetry and with an analysis using the large-Nc consistency conditions between the unitarization and resonance saturation. The obtained ππ-scattering length a00 in case when we restrict to the analysis of the ππ scattering or consider so-called A-solution (with a lower mass and width of f0(600) meson) agrees well with prediction of chiral perturbation theory (ChPT) and with data extracted at CERN by the NA48/2 Collaboration from the analysis of the Ke4 decay and by the DIRAC Collaboration from the measurement of the π+π- lifetime.