Journal
IEEE TRANSACTIONS ON CYBERNETICS
Volume 50, Issue 8, Pages 3581-3593Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCYB.2019.2921424
Keywords
Nonhomogeneous media; Robust control; Quantum computing; Task analysis; Chemistry; Machine learning algorithms; Uncertainty; Differential evolution; femtosecond laser; quantum control; quantum learning; quantum robust control
Categories
Funding
- Australian Research Council [DP190101566]
- National Natural Science Foundation of China [61828303, 61833010]
- NSF [CHE-1464569]
- Army Research Office [W911NF-16-1-0014]
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Robust control design for quantum systems has been recognized as a key task in quantum information technology, molecular chemistry, and atomic physics. In this paper, an improved differential evolution algorithm, referred to as multiple-samples and mixed-strategy DE (msMS_DE), is proposed to search robust fields for various quantum control problems. In msMS_DE, multiple samples are used for fitness evaluation and a mixed strategy is employed for the mutation operation. In particular, the msMS_DE algorithm is applied to the control problems of: 1) open inhomogeneous quantum ensembles and 2) the consensus goal of a quantum network with uncertainties. Numerical results are presented to demonstrate the excellent performance of the improved machine learning algorithm for these two classes of quantum robust control problems. Furthermore, msMS_DE is experimentally implemented on femtosecond (fs) laser control applications to optimize two-photon absorption and control fragmentation of the molecule CH2BrI. The experimental results demonstrate the excellent performance of msMS_DE in searching for effective fs laser pulses for various tasks.
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