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W3157658602 abstract "Adiabatic operations are powerful tools for robust quantum control in numerous fields of physics, chemistry, and quantum information science. The inherent robustness due to adiabaticity can, however, be impaired in applications requiring short evolution times. We present a single versatile gradient-based optimization protocol that combines adiabatic control with effective Hamiltonian engineering in order to design adiabatic operations tailored to the specific imperfections and resources of an experimental setup. The practicality of the protocol is demonstrated by engineering a fast, 2.3 Rabi cycle-long adiabatic inversion pulse for magnetic resonance with built-in robustness to Rabi field inhomogeneities and resonance offsets. The performance and robustness of the pulse is validated in a nanoscale force-detected magnetic resonance experiment on a solid-state sample, indicating an ensemble-averaged inversion accuracy of 99.997%. We further showcase the utility of our protocol by providing examples of adiabatic pulses robust to spin-spin interactions, parameter-selective operations, and operations connecting arbitrary states, each motivated by experiments." @default.
W3157658602 created "2021-05-10" @default.
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W3157658602 date "2021-04-27" @default.
W3157658602 modified "2023-09-27" @default.
W3157658602 title "Numerical Engineering of Robust Adiabatic Operations" @default.
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W3157658602 doi "https://doi.org/10.1103/physrevapplied.15.044043" @default.
W3157658602 hasPublicationYear "2021" @default.