Universality classes: Difference between revisions

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${\displaystyle d}$	${\displaystyle n}$	${\displaystyle \sigma }$	name
			3-state Potts
			Ashkin-Teller
			Chiral
			Directed percolation
			Ising
			Local linear interface
			Mean-field
			Molecular beam epitaxy
			Random-field

3-state Potts

Ashkin-Teller

Chiral

Directed percolation

Ising

The Hamiltonian of the Ising model is

${\displaystyle H=\sum _{<i,j>}S_{i}S_{j}}$

where ${\displaystyle S_{i}=\pm 1}$ and the summation runs over the lattice sites.

The order parameter is ${\displaystyle m=\sum _{i}S_{i}}$

In two dimensions, Onsager obtained the exact solution in the absence of a external field, and the critical exponents are ${\displaystyle \alpha =0}$ (In fact, the specific heat diverges logarithmically with the critical temperature)

${\displaystyle \beta ={\frac {1}{8}}}$

${\displaystyle \gamma ={\frac {7}{4}}}$

${\displaystyle \delta =15}$

Local linear interface

Mean-field

The critical exponents of are derived as follows ^[1]:

Heat capacity exponent: ${\displaystyle \alpha }$

(final result: ${\displaystyle \alpha =0}$)

Magnetic order parameter exponent: ${\displaystyle \beta }$

(final result: ${\displaystyle \beta =1/2}$)

Susceptibility exponent: ${\displaystyle \gamma }$

(final result: ${\displaystyle \gamma =1}$)

Molecular beam epitaxy

See also

• Critical exponents

Random-field