Model-independent approach as a tool of studying chiral symmetry
Abstract
A simultaneous analysis (in the model-independent approach) of the ππ scattering (from the threshold to 1.9 GeV) and of the ππ KK process (from the threshold to 1.46 GeV) is carried out in channel with IGJPC=0+0++. The existence of the f0(665) state with properies of the σ-meson is proved. An indication for the glueball nature of the f0(1500) is obtained. A minimum scenario of the simultaneous description of the processes ππππ,KK does without the f0(1370) resonance. A version including this state is also considered. In this case the f0(1370) resonance has the dominant s s component (the ratio of its coupling constant with the ππ channel to the one with the KK channel is 0.12). The coupling constants of the observed states with the ππ and KK systems and the ππ and KK scattering lengths are obtained. A parameterless description of the ππ background is given by allowance for the left-hand branch-point in the uniformizing variable. On the basis of this and of the fact that all the adjusted parameters for the ππ scattering are only the positions of poles describing resonances, it is concluded that our model-independent approach is a valuable tool for studying the realization schemes of chiral symmetry. The existence of the f0(665) state and the obtained ππ-scattering length (a00≈ 0.27 mπ+-1) seem to suggest the linear realization of chiral symmetry.
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