Z2 Topological Insulators in Ultracold Atomic Gases
Abstract
We describe how optical dressing can be used to generate bandstructures for ultracold atoms with non-trivial Z2 topological order. Time reversal symmetry is preserved by simple conditions on the optical fields. We first show how to construct optical lattices that give rise to Z2 topological insulators in two dimensions. We then describe a general method for the construction of three-dimensional Z2 topological insulators. A central feature of our approach is a new way to understand Z2 topological insulators starting from the nearly-free electron limit.
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