The Ferromagnetic Potts model under an external magnetic field: an exact renormalization group approach
Abstract
The q-state ferromagnetic Potts model under a non-zero magnetic field coupled with the 0th Potts state was investigated by an exact real-space renormalization group approach. The model was defined on a family of diamond hierarchical lattices of several fractal dimensions dF. On these lattices, the renormalization group transformations became exact for such a model when a correlation coupling that singles out the 0th Potts state was included in the Hamiltonian. The rich criticality presented by the model with q=3 and dF=2 was fully analyzed. Apart from the Potts criticality for the zero field, an Ising-like phase transition was found whenever the system was submitted to a strong reverse magnetic field. Unusual characteristics such as cusps and dimensional reduction were observed on the critical surface.
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