Critical behaviour of the fully packed loop-$O(n)$ model on planar triangulations (2512.05867v1)

Abstract: We study the fully packed loop-$O(n)$ model on planar triangulations. This model is also bijectively equivalent to the Fortuin--Kasteleyn model of planar maps with parameter $q\in (0,4)$ at its self-dual point. These have been traditionally studied using either techniques from analytic combinatorics (based in particular on the gasket decomposition of Borot, Bouttier and Guitter arXiv:1106.0153) or probabilistic arguments (based on Sheffield's hamburger-cheeseburger bijection arXiv:1108.2241). In this paper we establish a dictionary relating quantities of interest in both approaches. This has several consequences. First, we derive an exact expression for the partition function of the fully packed loop-$O(n)$ model on triangulations, as a function of the outer boundary length. This confirms predictions by Gaudin and Kostov. In particular, this model exhibits critical behaviour, in the sense that the partition function exhibits a power-law decay characteristic of the critical regime at this self-dual point. This can be thought of as the planar map analogue of Nienhuis' predictions for the critical point of the loop-$O(n)$ model on the hexagonal lattice. Finally, we derive precise asymptotics for geometric features of the FK model of planar maps when $0 < q <4$, such as the exact tail behaviour of the perimeters of clusters and loops. This sharpens previous results of arXiv:1502.00450 and arXiv:1502.00546. A key step is to use the above dictionary and the probabilistic results to justify rigorously an ansatz commonly assumed in the analytic combinatorics literature.