Abstract
We model physical systems with "hard constraints" by the space Hom(G, H) of homomorphisms from a locally finite graph G to a fixed finite constraint graph H. For any assignment λ of positive real activities to the nodes of H, there is at least one Gibbs measure on Hom(G, H); when G is infinite, there may be more than one. When G is a regular tree, the simple, invariant Gibbs measures on Hom(G, H) correspond to node-weighted branching random walks on H. We show that such walks exist for every H and λ, and characterize those H which, by admitting more than one such construction, exhibit phase transition behavior. © 1999 Academic Press.
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CITATION STYLE
Brightwell, G. R., & Winkler, P. (1999). Graph Homomorphisms and Phase Transitions. Journal of Combinatorial Theory. Series B, 77(2), 221–262. https://doi.org/10.1006/jctb.1999.1899
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