Application of the small-tip-angle approximation in the toggling frame for the design of analytic robust pulses in quantum control

L. Van Damme; D. Sugny; S. J. Glaser

doi:10.1103/PhysRevA.104.042226

Application of the small-tip-angle approximation in the toggling frame for the design of analytic robust pulses in quantum control

L. Van Damme, D. Sugny, S. J. Glaser

Associate Professorship of Organic Chemistry

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

We apply the small-tip-angle approximation in the toggling frame in order to analytically design robust pulses against resonance offsets for state to state transfer in two-level quantum systems. We show that a broadband or a local robustness up to an arbitrary order can be achieved. We provide different control parametrizations to satisfy experimental constraints and limitations on the amplitude or energy of the pulse. A comparison with numerical optimal solutions is made.

Original language	English
Article number	042226
Journal	Physical Review A
Volume	104
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevA.104.042226
State	Published - Oct 2021

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10.1103/PhysRevA.104.042226

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abstract = "We apply the small-tip-angle approximation in the toggling frame in order to analytically design robust pulses against resonance offsets for state to state transfer in two-level quantum systems. We show that a broadband or a local robustness up to an arbitrary order can be achieved. We provide different control parametrizations to satisfy experimental constraints and limitations on the amplitude or energy of the pulse. A comparison with numerical optimal solutions is made.",

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AB - We apply the small-tip-angle approximation in the toggling frame in order to analytically design robust pulses against resonance offsets for state to state transfer in two-level quantum systems. We show that a broadband or a local robustness up to an arbitrary order can be achieved. We provide different control parametrizations to satisfy experimental constraints and limitations on the amplitude or energy of the pulse. A comparison with numerical optimal solutions is made.

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Application of the small-tip-angle approximation in the toggling frame for the design of analytic robust pulses in quantum control

Abstract

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