Low‐Temperature Properties of a Heisenberg Antiferromagnet

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Physics
Quantum Physics

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Abstract

It is shown how the propagator formalism can be used to obtain the low‐temperature expansion of the free energy of an isotropic Heisenberg antiferromagnet. The lowest‐order terms in such an expansion can be calculated using the proper self‐energy evaluated at zero temperature. The analytic properties of this quantity are investigated by expressing it in terms of time ordered diagrams. The low‐temperature expansion of the free energy is shown to be of the form AT 4+BT 4+CT 8, where A, B, and C are given by Oguchi correctly to order 1/S. For spin ½ the term in 1/S 2 gives a 2% reduction in A for a body‐centered lattice.

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1964-03-01

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Journal of Applied Physics

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At the time of publication, author A. Brooks Harris was affiliated with Duke University. Currently, he is a faculty member in the Physics Department at the University of Pennsylvania.

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