Assembling topological insulators with lasers
Abstract
Despite the realizations of spin-orbit (SO) coupling and synthetic gauge fields in optical lattices, the associated time-reversal symmetry breaking, and 1D nature of the observed SO coupling pose challenges to obtain intrinsic topological insulator. We propose here a model optical device for engineering intrinsic topological insulator which can be easily set up with the existing tools. The device is made of a periodic lattice of quantum mechanically connected atomic wires (dubbed SO wires) in which the laser generated SO coupling (, with being the momentum) is reversed in every alternating wires as . The associated small Zeeman terms are also automatically reversed in any two adjacent SO wires, which allow to effectively restore the global time-reversal (TR) symmetry. Therefore, the two SO wires serve as the TR partner to each other which is an important ingredient for topological insulators according to the Kane-Mele model. These properties ensure a non-trivial invariant topological insulator phase with protected edge states. We also discuss that a non-local current measurement can be used to detect the chiral edge states.
Cite
@article{arxiv.1602.02926,
title = {Assembling topological insulators with lasers},
author = {Sayonee Ray and Kallol Sen and Tanmoy Das},
journal= {arXiv preprint arXiv:1602.02926},
year = {2016}
}
Comments
5 pages, 4 figures, added some references and made minor changes