Ising model: Difference between revisions
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*[[History of the Ising model]] | *[[History of the Ising model]] | ||
== Ising Model == | |||
The Ising model is commonly defined over an ordered lattice. | |||
Each site of the lattice can adopt two states: either | |||
UP (S=+1) or DOWN (S=-1). | |||
The energy of the system is the sum of pair interactions | |||
between nearest neighbors. | |||
<math> \frac{U}{k_B T} = - K \sum_{<ij>} S_i S_j </math> | |||
where <math> <ij> </math> indicates that the sum is done over nearest neighbors, and | |||
<math> S_i </math> indicates the state of the i-th site. | |||
<math> K </math> is called the Coupling constant. | |||
to be continued: | |||
* Ising in 1-d (exact solution) | |||
* Usual lattices in 2d: Critical behavior | |||
* Lattices in 3-d | |||
* Ferromagnetic and antiferromagnetic couplings | |||
*Frustration, etc | |||
* Simulation procedures | |||
* Theoretical methods | |||
Revision as of 18:01, 22 February 2007
Ising Model
The Ising model is commonly defined over an ordered lattice. Each site of the lattice can adopt two states: either UP (S=+1) or DOWN (S=-1).
The energy of the system is the sum of pair interactions between nearest neighbors.
where indicates that the sum is done over nearest neighbors, and indicates the state of the i-th site.
is called the Coupling constant.
to be continued:
- Ising in 1-d (exact solution)
- Usual lattices in 2d: Critical behavior
- Lattices in 3-d
- Ferromagnetic and antiferromagnetic couplings
- Frustration, etc
- Simulation procedures
- Theoretical methods