中国物理B ›› 2022, Vol. 31 ›› Issue (9): 97302-097302.doi: 10.1088/1674-1056/ac5d2b
Yi-Ming Dai(戴镒明)1,2, Si-Si Wang(王思思)1,2,3, Yan Yu(禹言)4,5, Ji-Huan Guan(关济寰)6,4, Hui-Hui Wang(王慧慧)1,7,2, and Yan-Yang Zhang(张艳阳)1,7,2,3,†
Yi-Ming Dai(戴镒明)1,2, Si-Si Wang(王思思)1,2,3, Yan Yu(禹言)4,5, Ji-Huan Guan(关济寰)6,4, Hui-Hui Wang(王慧慧)1,7,2, and Yan-Yang Zhang(张艳阳)1,7,2,3,†
摘要: In a quantum Hall effect, flat Landau levels may be broadened by disorder. However, it has been found that in the thermodynamic limit, all extended (or current carrying) states shrink to one single energy value within each Landau level. On the other hand, a quantum anomalous Hall effect consists of dispersive bands with finite widths. We numerically investigate the picture of current carrying states in this case. With size scaling, the spectrum width of these states in each bulk band still shrinks to a single energy value in the thermodynamic limit, in a power law way. The magnitude of the scaling exponent at the intermediate disorder is close to that in the quantum Hall effects. The number of current carrying states obeys similar scaling rules, so that the density of states of current carrying states is finite. Other states in the bulk band are localized and may contribute to the formation of a topological Anderson insulator.
中图分类号: (Weak or Anderson localization)