Potts model

The Potts model was proposed by Renfrey B. Potts in 1952 (Ref. 1). The Potts model is a generalisation of the Ising model to more than two components. For a general discussion on Potts models see Refs. 2 and 3. In practice one has a lattice system. The sites of the lattice can be occupied by particles of different species, ${\displaystyle S=1,2,\cdots ,q}$.

The energy of the system, ${\displaystyle E}$, is defined as:

${\displaystyle E=-K\sum _{\langle ij\rangle }\delta (S_{i},S_{j})}$

where ${\displaystyle K}$ is the coupling constant, ${\displaystyle \langle ij\rangle }$ indicates that the sum is performed exclusively over pairs of nearest neighbour sites, and ${\displaystyle \delta (S_{i},S_{j})}$ is the Kronecker delta. Note that the particular case ${\displaystyle q=2}$ is equivalent to the Ising model.

Considering a symmetric situation (i.e. equal chemical potential for all the species):

${\displaystyle \mu _{1}=\mu _{2}=\cdots =\mu _{q}}$;

the Potts models exhibit order-disorder phase transitions. For space dimensionality ${\displaystyle d=2}$, and low values of ${\displaystyle q}$ the transitions are continuous (${\displaystyle E(T)}$ is a continuous function), but the heat capacity ${\displaystyle C(T)=(\partial E/\partial T)}$ diverges at the transition temperature. The critical behavior of different values of ${\displaystyle q}$ corresponds to different critical universality classes.

For space dimensionality ${\displaystyle d=3}$, the transitions for ${\displaystyle q\geq 3}$ are first order (${\displaystyle E}$ shows a discontinuity at the transition temperature).

See also

• Ashkin-Teller model
• Kac model

References

1. Renfrey B. Potts "Some generalized order-disorder transformations", Proceedings of the Cambridge Philosophical Society 48 pp. 106−109 (1952)
2. F. Y. Wu "The Potts model", Reviews of Modern Physics 54 pp. 235-268 (1982)
3. F. Y. Wu "Erratum: The Potts model", Reviews of Modern Physics 55 p. 315 (1983)