A Thouless quantum pump with ultracold bosonic atoms in an optical superlattice
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Topological charge pumping enables the transport of charge through an adiabatic cyclic evolution of the underlying Hamiltonian. In contrast to classical transport, the transported charge is quantized and purely determined by the topology of the pump cycle, making it robust to perturbations. Here, we report on the realization of such a pump with ultracold bosonic atoms forming a Mott insulator in a dynamically controlled optical superlattice. By taking in situ images of the cloud, we observe a quantized deflection per pump cycle. We reveal the pump’s genuine quantum nature by showing that, in contrast to ground-state particles, a counterintuitive reversed deflection occurs for particles in the first excited band. Furthermore, we directly demonstrate that the system undergoes a controlled topological transition in higher bands when tuning the superlattice parameters. These results open a route to the implementation of more complex pumping schemes, including spin degrees of freedom and higher dimensions.
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LOHSE, Michael, Christian SCHWEIZER, Oded ZILBERBERG, Monika AIDELSBURGER, Immanuel BLOCH, 2016. A Thouless quantum pump with ultracold bosonic atoms in an optical superlattice. In: Nature Physics. Springer Nature. 2016, 12(4), pp. 350-354. ISSN 1745-2473. eISSN 1745-2481. Available under: doi: 10.1038/nphys3584BibTex
@article{Lohse2016Thoul-54931, year={2016}, doi={10.1038/nphys3584}, title={A Thouless quantum pump with ultracold bosonic atoms in an optical superlattice}, number={4}, volume={12}, issn={1745-2473}, journal={Nature Physics}, pages={350--354}, author={Lohse, Michael and Schweizer, Christian and Zilberberg, Oded and Aidelsburger, Monika and Bloch, Immanuel} }
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