Quantum magnetization plateaux of an anisotropic ferrimagnetic spin chain
Abstract
The magnetization curve of the (S,s)=(1,1/2) ferrimagnetic alternating spin chain with the single-ion anisotropy D is investigated with the numerical exact diagonalization of finite clusters and size-scaling analyses. The system has a plateau at 1/3 of the saturation moment, which corresponds to the spontaneous magnetization for D=0. Varying D in the 1/3-magnetized ground state under the external field along the axis of D, a quantum phase transition is revealed to occur at the critical value D/J=1.114 0.001 where the plateau vanishes. Except for the critical point, the plateau is always opening, but the mechanism is different between D<Dc and D>Dc. The change of mechanisms is an evidence to clarify that the plateau originates from the quantization of magnetization.
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