Uniform Lipschitz functions on the triangular lattice have logarithmic variations

12.03.2019 16:30 - 17:30

Ioan Manolescu (University of Fribourg)


Uniform integer-valued Lipschitz functions on a finite domain of the triangular lattice are shown to have variations of logarithmic order in the radius of the domain.
The level lines of such functions form a loop O(2) model on the edges of the hexagonal lattice with edge-weight one. An infinite-volume Gibbs measure for the loop O(2) model is constructed as a thermodynamic limit and is shown to be unique. It contains only finite loops and has properties indicative of scale-invariance: macroscopic loops appearing at every scale. The existence of the infinite-volume measure carries over to height functions pinned at 0; the uniqueness of the Gibbs measure does not.

The proof is based on a representation of the loop O(2) model via a pair of spin configurations that are shown to satisfy the FKG inequality. We prove RSW-type estimates for a certain connectivity notion in the aforementioned spin model.

Based on joint work with Alexander Glazman.

M. Beiglböck, N. Berestycki, L. Erdös, J. Maas

HS 11, 2. OG, OMP 1