Effect of Wavefunction Renormalisation in N-Flavour Qed3 at Finite Temperature

Abstract

A recent study of dynamical chiral symmetry breaking in N-flavour QED3 at finite temperature is extended to include the effect of fermion wavefunction renormalisation in the Schwinger-Dyson equations. The simple ``zero-frequency'' truncation previously used is found to lead to unphysical results, especially as T 0. A modified set of equations is proposed, whose solutions behave in a way which is qualitatively similar to the T=0 solutions of Pennington et al. [5-8] who have made extensive studies of the effect of wavefunction renormalisation in this context, and who concluded that there was no critical Nc (at T=0) above which chiral symmetry was restored. In contrast, we find that our modified equations predict a critical Nc at T = 0, and an N-T phase diagram very similar to the earlier study neglecting wavefunction renormalisation. The reason for the difference is traced to the different infrared behaviour of the vacuum polarisation at T=0 and at T = 0.

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