Deutschmann-Olek, A., Tajik, M., Calzavara, M., Schmiedmayer, J., Calarco, T., & Kugi, A. (2022). Iterative shaping of optical potentials for one-dimensional Bose-Einstein condensates. In Proceedings 2022 IEEE 61st Conference on Decision and Control (CDC) (pp. 5801–5806). https://doi.org/10.1109/CDC51059.2022.9993271
E376-02 - Forschungsbereich Komplexe Dynamische Systeme E141-02 - Forschungsbereich Atom Physics and Quantum Optics
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Published in:
Proceedings 2022 IEEE 61st Conference on Decision and Control (CDC)
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ISBN:
9781665467612
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Volume:
2022-December
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Date (published):
Jan-2022
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Event name:
2022 IEEE 61st Conference on Decision and Control (CDC)
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Event date:
6-Dec-2022 - 9-Dec-2022
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Event place:
Mexico
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Number of Pages:
6
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Peer reviewed:
Yes
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Keywords:
Optical potentials; Bose-Einstein condensates; Quantum control
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Abstract:
The ability to manipulate clouds of ultra-cold atoms is crucial for modern experiments on quantum many-body systems and quantum thermodynamics as well as future metrological applications of Bose-Einstein condensate. While optical manipulation offers almost arbitrary flexibility, the precise control of the resulting dipole potentials and the mitigation of unwanted disturbances is quite involved and only heuristic algorithms with rather slow convergence rates are available up to now. This paper thus suggests the application of iterative learning control (ILC) methods to generate fine-tuned effective potentials in the presence of uncertainties and external disturbances. Therefore, the given problem is reformulated to obtain a one-dimensional tracking problem by using a quasicontinuous input mapping which can be treated by established ILC methods. Finally, the performance of the proposed concept is illustrated in a simulation scenario.
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Research Areas:
Design and Engineering of Quantum Systems: 50% Computational System Design: 50%
