Nesting of double-dimer loops: local fluctuations and convergence to the nesting field of CLE(4)

Abstract

We consider the double-dimer model in the upper-half plane discretized by the square lattice with mesh size δ. For each point x in the upper half-plane, we consider the random variable Nδ(x) given by the number of the double-dimer loops surrounding this point. We prove that the normalized fluctuations of Nδ(x) for a fixed x are asymptotically Gaussian as δ 0+. Further, we prove that the double-dimer nesting field Nδ(·) - E\, Nδ(·), viewed as a random distribution in the upper half-plane, converges as δ 0+ to the nesting field of CLE(4) constructed by Miller, Watson and Wilson.