Nonet Classification of Scalar/Isoscalar Resonances in the Mass Region below 1900 MeV: Observation of the Lightest Scalar Glueball

Abstract

We summarize the results of the investigation of the IJPC=00++ wave which is devoted to the search for the lightest scalar glueball. In the framework of the K-matrix formalism, the q q-nonet classification of the scalar/isoscalar states is performed in the mass region below 1900 MeV basing on the following data: GAMS data for π-pπ0π0n, ηη n, ηη'n; CERN-M\"unich data for π-pπ+π-n; Crystal Barrel data for p pπ0π0π0, π0π0η, π0ηη; BNL data for ππ K K. It is shown the existence of an extra state for q q classification: this state is a good candidate for the lightest scalar glueball. Analysis of the glueball/q q mixing shows that the glueball state has mainly dispersed over three real resonances: f0(1300), f0(1500) and f0(1530+90-250). The broad resonance with complex mass m=1530+90-250-i(560 140) MeV is descendant of the pure glueball. The restored mass of the pure glueball is equal to 1695 MeV. This value agrees well with the results of lattice gluodynamics.

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