Phase Transition in Long-Range q-state Models via Contours. Clock and Potts Models with Fields
Abstract
Using the group structure of the state space of q-state models, a new definition of contour for long-range spin-systems in d (d≥ 2), and a multidimensional version of Fr\"ohlich-Spencer contours, we prove phase transition for a class of ferromagnetic long-range systems which includes the Clock and Potts models. Our arguments work for the entire region of exponents of regular power-law interactions, namely α > d, and for any q ≥ 2. As an application, we prove phase transition for Potts models with decaying fields when the field decays fast enough and in the presence of a random external field.
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