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Paper detail

Realizing Fractional Chern Insulators with Dipolar Spins

Strongly correlated quantum systems can exhibit exotic behavior controlled by topology. We predict that the ν=1/2 fractional Chern insulator arises naturally in a two-dimensional array of driven, dipolar-interacting spins. As a specific implementation, we analyze how to prepare and detect synthetic gauge potentials for the rotational excitations of ultra-cold polar molecules trapped in a deep optical lattice. While the orbital motion of the molecules is pinned, at finite densities, the rotational excitations form a fractional Chern insulator. We present a detailed experimental blueprint for KRb, and demonstrate that the energetics are consistent with near-term capabilities. Prospects for the realization of such phases in solid-state dipolar systems are discussed as are their possible applications.

preprint2012arXivOpen access
Norman Y. YaoAlexey V. GorshkovChris R. LaumannAndreas M. LäuchliJun YeMikhail D. Lukin
cond-mat.str-elcond-mat.quant-gasquant-ph
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Norman Y. YaoAlexey V. GorshkovChris R. LaumannAndreas M. LäuchliJun YeMikhail D. Lukin

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