Haldane, Large-D and Intermediate-D States in an S=2 Quantum Spin Chain with On-Site and XXZ Anisotropies

Abstract

Using mainly numerical methods, we investigate the ground-state phase diagram of the S=2 quantum spin chain described by H = Σj (Sjx Sj+1x + Sjy Sj+1y + Sjz Sj+1z) + D Σj (Sjz)2, where denotes the XXZ anisotropy parameter of the nearest-neighbor interactions and D the on-site anisotropy parameter. We restrict ourselves to the case with 0 and D 0 for simplicity. Each of the phase boundary lines is determined by the level spectroscopy or the phenomenological renormalization analysis of numerical results of exact-diagonalization calculations. The resulting phase diagram on the -D plane consists of four phases; the XY 1 phase, the Haldane/large-D phase, the intermediate-D phase and the N\'eel phase. The remarkable natures of the phase diagram are: (1) the Haldane state and the large-D state belong to the same phase; (2) there exists the intermediate-D phase which was predicted by Oshikawa in 1992; (3) the shape of the phase diagram on the -D plane is different from that believed so far. We note that this is the first report of the observation of the intermediate-D phase.