Abstract
A ferromagnetic layered spin-S system with an anisotropic exchange interaction is studied by the RPA Green's function method and the validity of the approximation is ascertained for a nearly two-dimensional Heisenberg system. The Curie temperature T, is given in terms of the ratio a of the interlayer exchange interaction to the intralayer one and of the exchange anisotropy 71, and is shown to be raised abruptly by a slight additional XY-like exchange anisotropy for the nearly two-dimensional isotropic Heisenberg model. The zero-point spin contraction increases as the system becomes XY-like and two-dimensional. For the nearly two-dimensional Heisenberg system the magnetization behaves like lv1,oc1-cT'12 in the vast intermediate temperature region, which amounts to (0.19~0.72) T, in the case of K 2CuF4 with a=0.00066 and the XY-like anisotropy of one percent, and the present theory IS m satisfactory agreement with the experimental results. § l. Introduction Magnetic layered systems with an anisotropic interaction present great interest mg problems not only experimentally but also theoretically, because the changes in the dimensionalities of the lattice and of the spin are connected closely with the
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