A flat-top beam profile created via analytical superposition of Gaussian modes provides spatial selectivity for Rydberg excitation, confirmed by differing Rabi oscillation visibilities between targeted and neighboring atoms in experiment.
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Optimized double-pulse laser shapes from D-MORPH quantum optimal control achieve ~99% Bell-state fidelity in Rydberg atoms and remain robust to moderate amplitude noise while phase noise remains the dominant limiter.
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Addressable Rydberg excitation in arrays of single neutral atoms with a strongly focused flat-top beam
A flat-top beam profile created via analytical superposition of Gaussian modes provides spatial selectivity for Rydberg excitation, confirmed by differing Rabi oscillation visibilities between targeted and neighboring atoms in experiment.
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Noise-Robust Ultrafast Entanglement Generation in Rydberg Atoms via Quantum Optimal Control
Optimized double-pulse laser shapes from D-MORPH quantum optimal control achieve ~99% Bell-state fidelity in Rydberg atoms and remain robust to moderate amplitude noise while phase noise remains the dominant limiter.