Multi-point functions of a full-plane two-state fuzzy 4-Potts model

Abstract

We study the full-plane two-state fuzzy 4-Potts model, obtained by assigning independent balanced \1\ spins to the open clusters of a critical q=4 random-cluster configuration. This model corresponds exactly to the single-spin projection of the isotropic Ashkin-Teller model at its Potts point. We prove that, after proper normalization, all even multi-point spin correlation functions converge to explicit conformally covariant Coulomb-gas type neutral charge sums. As a consequence, we prove convergence in law of the rescaled magnetization field and identify the moments of the limiting field. The proof combines the Baxter-Kelland-Wu coupling, convergence of the six-vertex height function to the Gaussian free field, and a charge-completion mechanism: an enlarged discrete sum over charge assignments with total charge in 4 Z produces a combinatorial cancellation of connection patterns, while only the neutral charge sector survives in the scaling limit.