The 1-2 model
Grimmett, Geoffrey R.
American Mathematical Society
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Grimmett, G. R., & Li, Z. (2016). The 1-2 model. Contemporary Mathematics
This is the author accepted manuscript. It is currently under an indefinite embargo pending publication by the American Mathematical Society.
The current paper is a short review of rigorous results for the 1-2 model. The 1-2 model on the hexagonal lattice is a model of statistical mechanics in which each vertex is constrained to have degree either 1 or 2. It was proposed in a study by Schwartz and Bruck of constrained coding systems, and is strongly connected to the dimer model on a decoration of the lattice, and to an enhanced Ising model and an associated polygon model on the graph derived from the hexagonal lattice by adding a further vertex in the middle of each edge. The general 1-2 model possesses three parameters a, b, c. The fundamental technique is to represent probabilities of interest as ratios of counts of dimer coverings of certain associated graphs, and to apply the Pfaffian method of Kasteleyn, Fisher, and Temperley. Of special interest is the existence (or not) of phase transitions. It turns out that all clusters of the infinite-volume limit are almost surely finite. On the other hand, the existence (with strictly positive probability) of infinite ‘homogeneous’ clusters, containing vertices of given type, depends on the values of the parameters. A further type of phase transition emerges in the study of the two-edge correlation function, and in this case the critical surface may be found explicitly. For instance, when a ≥ b ≥ c > 0, the surface given by √ a = √ b + √ c is critical.
1-2 model, dimers, polygon model, Ising model, perfect matching, Kasteleyn matrix, phase transition, percolation
This work was supported in part by the Engineering and Physical Sciences Research Council under grant EP/103372X/1. ZL acknowledges support from the Simons Foundation under grant #351813. The authors thank the anonymous referee for the careful reading and useful comments.
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