Broken symmetry phase solution of the phi^4 model at two-loop level of the Phi-derivable approximation

Details Broken symmetry phase solution of the phi^4 model at two-loop level of the Phi-derivable approximation Broken symmetry phase solution of the phi^4 model at two-loop level of the Phi-derivable approximation

2011-05-20

arxiv.org/abs/1105.4124v3

Phys.Rev.D84:056001,2011

Physics

High Energy Physics

High Energy Physics - Phenomenology

RevTeX4, 18 pages, 6 figures. Explanatory diagram added. Version published in Phys. Rev. D. Reference [33] corrected

Scientific paper

The set of coupled equations for the self-consistent propagator and the field expectation value is solved numerically with high accuracy in Euclidean space at zero temperature and in the broken symmetry phase of the phi^4 model. Explicitly finite equations are derived with the adaptation of the renormalization method of van Hees and Knoll [H. van Hees, J. Knoll, Phys. Rev. D65, 025010 (2001)] to the case of non-vanishing field expectation value. The set of renormalization conditions used in this method leads to the same set of counterterms obtained recently in A. Patkos, Zs. Szep, Nucl. Phys. A811, 329-352 (2008). This makes possible the direct comparison of the accurate solution of explicitly finite equations with the solution of renormalized equations containing counterterms. The numerically efficient way of solving iteratively these latter equations is obtained by deriving at each order of the iteration new counterterms which evolve during the iteration process towards the counterterms determined based on the asymptotic behavior of the converged propagator. As shown at different values of the coupling, the use of these evolving counterterms accelerates the convergence of the solution of the equations.

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