The Relativistic Cornell-type Mechanism of Exotic Scalar Resonances

Abstract

The formalism of the coupled q q and the ( π-π, K K, π K,...) scalar channels is formulated, taking into account the ground and radial excited q q poles. The basic role is shown to be played by the transition coefficients k(I) (q q, |), which are calculated using the quark-chiral Lagrangian without free parameters. The resulting method, called the pole projection mechanism (PPM), ensures: 1) one resonance for each channel from the basic q q pole, e.g. the f0 (500) resonance in the ππ channel; 2) a possibility to have two resonances, coupled to the same q q state, when the channel coupling is taken into account in the meson-meson channels, which yields f0 (500) and f0(980) from the same n n pole around 1 GeV; 3) the strong pole shift down for special (ππ, π K) channels due to large transition coefficients k(I), computed in this formalism without free parameters. The parameters of calculated complex poles are in reasonable agreement with the experimental data of the resonances f0(500), f0(980), a0(980), a0(1450), K*0(700), K*0(1430), f0(1370) and f0(1710).