σ(500) resonance pole positions as function of mπ: analysis with a unitary coupled-channel model

Abstract

Resonance pole positions of the f0(500) alias σ(500) meson are computed and plotted as a continuous function of pion mass in the framework of a unitary and analytic coupled-channel model for scalar mesons as dynamical qq states. The σ is described with a light and a strange qq seed, mixing with each other mainly through the common ππ, KK, and ηη meson-meson channels. The few model parameters are fitted to experimental S-wave ππ phase shifts up to 1 GeV, yielding, in the case of the physical pion mass, resonance poles at (460-i222) MeV for the σ(500) and (978-i37) MeV for the f0(980). Resonance, bound-state, and virtual-state pole trajectories are shown as a function of mπ running from 139.57 MeV to 1 GeV. These are compared to recent lattice QCD computations that use interpolating fields corresponding to the model's channels, i.e., for a few discrete mπ values.