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Correlation effects on topological insulator

arXiv:1011.5207

Abstract

The strong correlation effects on topological insulator are studied in a two-sublattice system with an onsite single-particle energy difference $Δ$ between two sublattices. At $Δ=0$, increasing the onsite interaction strength $U$ drives the transition from the quantum spin Hall insulating state to the non-topological antiferromagnetic Mott-insulating (AFMI) state. When $Δ$ is larger than a certain value, a topologically trivial band insulator or AFMI at small values of $U$ may change into a quantum anomalous Hall state with antiferromagnetic ordering at intermediate values of $U$. Further increasing $U$ drives the system back into the topologically trivial state of AFMI. The corresponding phenomena is observable in the solid state and cold atom systems. We also propose a scheme to realize and detect these effects in cold atom systems.

4 pages, 4 figures