Convergence of the Gaussian Expansion Method in Dimensionally Reduced Yang-Mills Integrals

Abstract

We advocate a method to improve systematically the self-consistent harmonic approximation (or the Gaussian approximation), which has been employed extensively in condensed matter physics and statistical mechanics. We demonstrate the convergence of the method in a model obtained from dimensional reduction of SU(N) Yang-Mills theory in D dimensions. Explicit calculations have been carried out up to the 7th order in the large-N limit, and we do observe a clear convergence to Monte Carlo results. For D 10 the convergence is already achieved at the 3rd order, which suggests that the method is particularly useful for studying the IIB matrix model, a conjectured nonperturbative definition of type IIB superstring theory.

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