Abstract
The spin excitations in the antiferromagnetic phase of half-filled Kondo lattice model are studied by means of the decoupling approximation for spin Green's function. The spin-wave spectrum is calculated as a function of Kondo coupling, and this is used to calculate the thermodynamic quantities at low temperatures. The Néel temperature of the form T N = 0.087 J 2 ln( 1 J ) is obtained for the 3-dimensional case in the weak-coupling limit. It is pointed out that the ratio of the spin-wave velocity to the Néel temperature v s T N is enhanced as the Kondo coupling becomes small, reflecting the long-range nature of effective interactions between localized spins.
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