Mixing mechanism for the JP=0+ mesons

Abstract

There are three scalar nonets in the Particle Data Group (PDG), one of which includes [a0(980), K0*(700)], another includes [a0(1450), K0*(1430)], and the third includes [a0(1710), K0*(1950)]. Motivated by Ref.[1], we examine an alternative mixing mechanism that could potentially explain the small mass difference between the a0 (1450) and K0* (1430). According to the tetraquark mixing model, two types, distinguished by their color-spin structures, are necessary to describe the tetraquark structure of the two nonets containing [a0(980), K0*(700)] and [a0(1450), K0*(1430)]. Considering the color-spin structures, we argue that the mixing mechanism generating a0(1450) and K0* (1430) on the one hand, and a0(1710) and K0* (1950) on the other hand might be relevant for resolving the small mass difference. We also discuss the limitations of other mixing mechanisms that generate the two nonets involving [a0(980),K0*(700)] and [a0(1450), K0* (1430)] or [a0(980),K0*(700)] and [a0(1710), K0* (1950)]

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