We design control protocols that accomplish precise quantum operations while remaining robust to realistic noise sources, field imperfections, dephasing, and dissipation. Our approach emphasizes structure-aware control: inverse engineering via dynamical invariants, tailoring time-dependent drives to suppress leakage and sensitivity, and (when beneficial) exploiting noise rather than only fighting it. We are particularly interested in control strategies compatible with open-system dynamics and scalable settings, where the Hilbert space grows rapidly, and long-range interactions and environment-induced errors become central constraints.

Selected publications:

1. L.M. Cangemi, H. Espin´os, R. Puebla, E. Torrontegui A. Levy; Control of open quantum systems via dynamical invariants Advanced Quantum Technologies (2026)
    
2. L. M. Cangemi, Y. Woldiger, A. Levy, A. Hamo; Theory and Experimental Demonstration of Quantum Invariant Filtering, preprint arXiv:2506.15805
    
3. H. Espinos, L.M. Cangemi,A. Levy, R. Puebla, E. Torrontegui ; Invariant-based control
    
4. of quantum many-body systems across critical points, preprint arXiv:2309.05469 (2023)
    
5. A. Levy, A. Kiely, J.G. Muga, R. Kosloff; E. Torrontegui, Noise resistant quantum control using dynamical invariants, New Journal of Physics 20 (2), 025006 (2018)
    
6. A. Levy, E. Torrontegui, R. Kosloff; Action-noise-assisted quantum control, Physical Review A 96 (3), 033417 (2017)