K-Matrix Analysis of the (IJPC=00++) Amplitude in the Mass Region up to 1550 MeV
Abstract
K-matrix analysis of the 00++ wave is performed in the channels ππ,~K K,~ηη and 4π in the mass region up to 1550 MeV. The fit is based on the following data: p p ~(at~rest) π0π0π0, π0π0η,~π0ηη [1,2], π N ππ N [3,4], π N K K N [5] and the inelastic cross section of the ππ interaction [6]. Simultaneous analysis of these data confirms the existence of the scalar resonances: f0(980),~f0(1300) and f0(1500), the poles of the amplitude being at the following complex masses (in MeV): (1008 10)- i(43 5), (1290 25)-i(120 15), and (1497 6)-i(61 5). The fourth pole has sunk deeply into the complex plane: (1430 150) - i(600 100). Positions of the K-matrix poles (which are referred to the masses of bare states) are at 750 120 MeV, 1240 30 MeV, 1280 30 MeV and 1615 40 MeV. Coupling constants of the K-matrix poles to the ππ, ηη and K K channels are found that allow us to analyze the quark and gluonic content of bare states. It is shown that f0bare(1240) and f0bare(1615) (which are strongly related to f0(1500)) can be considered as good candidates for scalar glueball.
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