Potts Models on Feynman Diagrams

Details Potts Models on Feynman Diagrams Potts Models on Feynman Diagrams

1997-04-30

arxiv.org/abs/hep-lat/9704020v1

J.Phys.A30:7349-7363,1997

Physics

High Energy Physics

High Energy Physics - Lattice

10 pages, latex, + 6 postscript figures

Scientific paper

10.1088/0305-4470/30/21/011

We investigate numerically and analytically Potts models on ``thin'' random graphs -- generic Feynman diagrams, using the idea that such models may be expressed as the N --> 1 limit of a matrix model. The thin random graphs in this limit are locally tree-like, in distinction to the ``fat'' random graphs that appear in the planar Feynman diagram limit, more familiar from discretized models of two dimensional gravity. The interest of the thin graphs is that they give mean field theory behaviour for spin models living on them without infinite range interactions or the boundary problems of genuine tree-like structures such as the Bethe lattice. q-state Potts models display a first order transition in the mean field for q>2, so the thin graph Potts models provide a useful test case for exploring discontinuous transitions in mean field theories in which many quantities can be calculated explicitly in the saddle point approximation.

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