Enhanced non-quark-antiquark and non-gluebal Nc behavior of light scalar mesons

Abstract

We report our results on the nature of the lightest scalar resonances, where we show that a quark-antiquark or glueball interpretation of the scalars f0(600) and K*0(800) requires a very unnatural fine tuning to satisfy 1/Nc-expansion predictions for quark-antiquark or glueball states, which is not needed in the case of the lightest vector mesons (770) and K*(892). For this we consider scattering observables whose value is fixed to 1 for quark-antiquark and glueball states up to corrections suppressed by more than one power of 1/Nc, thus enhancing contributions of other nature. This allows us to evaluate these observables and check the 1/Nc predictions at Nc=3 without the need to extrapolate to unphysical Nc values. This is done using recent and very precise dispersive ππ and π K scattering data analyses.