Selfconsistent calculations of sigma-meson properties at finite temperature

Abstract

I study the properties of the scalar sigma-meson [also referred to as f0(600)] at nonzero temperature in the O(N)-model in the framework of the Cornwall-Jackiw-Tomboulis formalism. In the standard Hartree (or large-N) approximation one only takes into account the double-bubble diagrams in the effective potential. I improve this approximation by additionally taking into account the sunset diagrams, which lead to 4-momentum dependent real and imaginary parts of the Dyson-Schwinger equations. By solving these and the equation for the chiral condensate selfconsistently, one obtains the decay width and the spectral density of the sigma-meson. I compare the results in the case with explicit chiral symmetry breaking with the chiral limit. I found that the 4-momentum dependent real part of the selfenergy does not lead to major qualitative changes in the spectral density.

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