Tetraquark mixing framework for isoscalar resonances in light mesons

Abstract

Recently, a tetraquark mixing framework has been proposed for light mesons and applied more or less successfully to the isovector resonances, a0(980), a0(1450), as well as to the isodoublet resonances, K*0(800), K*0(1430). In this work, we present a more extensive view on the mixing framework and extend this to the isoscalar resonances, f0 (500), f0(980), f0 (1370), f0(1500). Tetraquarks in this framework can have two spin configurations containing either spin-0 diquark or spin-1 diquark and each configuration forms a nonet in flavor space. The two spin configurations are found to mix strongly through the color-spin interactions. Their mixtures, which diagonalize the hyperfine masses, can generate the physical resonances constituting the two nonets, which, in fact, coincide roughly with the experimental observation. We identify that f0 (500), f0(980) are the isoscalar members in the light nonet, and f0 (1370), f0(1500) are the similar members in the heavy nonet. This means that the spin configuration mixing, as it relates the corresponding members in the two nonets, can generate f0 (500), f0 (1370) among the members in light mass, and f0(980), f0(1500) in heavy mass. The complication arises because the isoscalar members of each nonet are subject to an additional flavor mixing known as OZI rule so that f0 (500), f0 (980), and similarly f0 (1370), f0 (1500), are the mixture of two isoscalar members belonging to an octet and a singlet in SUf(3). The tetraquark mixing framework including the flavor mixing is tested for the isoscalar resonances in terms of the mass splitting and the fall-apart decay modes.