Heisenberg model: Difference between revisions

Latest revision as of 07:27, 9 April 2021

The Heisenberg model is the n=3 case of the n-vector model. The Hamiltonian is given by

H=-J{\sum }_{\langle i,j\rangle }\mathbf {S} _{i}\cdot \mathbf {S} _{j}

where the sum runs over all pairs of nearest neighbour spins, $\mathbf {S}$ , and where $J$ is the coupling constant. The classical model is known to have a finite-temperature phase transition in three or higher spacial dimensions, and the ferromagnetic ( $J>0$ ) and antiferromagnetic ( $J<0$ ) share essentially the same physics. The quantum version differs greatly, and even the one-dimensional case has a rich variety of phenomena depending on the spin number $S$ and the sign of $J$ .

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 {{Stub-general}}
+The '''Heisenberg model''' is the n=3 case of the ''n''-vector model. The [[Hamiltonian]] is given by
+:<math>H = -J{\sum}_{\langle i,j\rangle}\mathbf{S}_i \cdot \mathbf{S}_{j}</math>
+where the sum runs over all pairs of nearest neighbour spins, <math>\mathbf{S}</math>, and where <math>J</math> is the coupling constant.
+The classical model is known to have a finite-temperature phase transition in three or higher spacial dimensions, and the ferromagnetic (<math>J>0</math>) and antiferromagnetic (<math>J<0</math>) share essentially the same physics.
+The quantum version differs greatly, and even the one-dimensional case has a rich variety of phenomena depending on the spin number <math>S</math> and the sign of <math>J</math>.
 ==See also==
+*[[Ising Models]] (n=1)
+*[[XY model]] (n=2)
 *[[Mermin-Wagner theorem]]
 ==References==

Heisenberg model: Difference between revisions

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Heisenberg model: Difference between revisions

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