A modified asymmetric Rydberg gate protocol with target detuning and optimized phase waveforms achieves fidelity within a factor of 2.39 of the Rydberg lifetime limit outside the blockade regime.
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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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An asymmetric and fast Rydberg gate protocol for entanglement outside of the blockade regime
A modified asymmetric Rydberg gate protocol with target detuning and optimized phase waveforms achieves fidelity within a factor of 2.39 of the Rydberg lifetime limit outside the blockade regime.
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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.
- Entangling gate performance and fidelity limits with neutral atom F\"orster resonances