Relativistic Effects in the Scalar Meson Dynamics

Abstract

A separable potential formalism is used to describe the ππ and KK interactions in the scalar-isoscalar states in the energy range from the ππ threshold up to 1.4 GeV. Introduction of relativistic propagators into a system of Lippmann-Schwinger equations leads to a very good description of the data (2=0.93 per one degree of freedom). Three poles are found in this energy region: fo(500) (M=506 10 MeV, =494 5 MeV), fo(975) (M=973 2 MeV, =29 2 MeV) and fo(1400) (M=1430 5 MeV, =145 25 MeV). The fo(975) state can be interpreted as a KK bound state. The fo(500) state may be associated with the often postulated very broad scalar resonance under the KK threshold (sometimes called σ or ε meson). The scattering lengths in the ππ and KK channels have also been obtained. The relativistic approach provides qualitatively new results (e.g. the appearance of the fo(500)) in comparison with previously used nonrelativistic approach.

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