Magnetization-plateau state of the S=3/2 spin chain with single ion anisotropy
Abstract
We reexamine the numerical study of the magnetized state of the S=3/2 spin chain with single ion anisotropy D(> 0) for the magnetization M=MS/3, where MS is the saturation magnetization. We find at this magnetization that for D<Dc1=0.387 the system is critical and the magnetization plateau does not appear. For D > Dc1, the parameter region is divided into two parts Dc1 < D < Dc2=0.943 and Dc2 < D. In each region, the system is gapful and the M=MS/3 magnetization plateau appears in the magnetization process. From our numerical calculation, the intermediate region Dc1 < D < Dc2 should be characterized by a magnetized valence-bond-solid state.
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