Large-Nf behavior of the Yukawa model: analytic results

Abstract

We investigate the Yukawa model in which Nf fermions are coupled with a scalar field φ through a Yukawa interaction. The phase diagram is rather well understood. If the fermions are massless, there is a chiral transition at Tc: for T < Tc chiral symmetry is spontaneously broken. At Nf=∞ the transition is mean-field like, while, for any finite Nf, standard arguments predict Ising behavior. This apparent contradiction has been explained by Kogut et al., who showed by scaling arguments and Monte Carlo simulations that in the large-Nf limit the width of the Ising critical region scales as a power of 1/Nf, so that only mean-field behavior is observed for Nf strictly equal to infinity. We will show how the results of Kogut et al. can be recovered analytically in the framework of a generalized 1/Nf expansion. The method we use is a simple generalization of the method we have recently applied to a two-dimensional generalized Heisenberg model.

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