A circular-modulated concatenated continuous driving (CMCCD) protocol for silicon qubits cancels counter-rotating errors via dual modulation and shows higher simulated fidelity plus improved experimental robustness to detuning and Rabi errors compared to standard Rabi or prior CCD drives.
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Simulations show CMA-ES outperforms Nelder-Mead and other algorithms for quantum device calibration across low- and high-dimensional regimes.
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Concatenated continuous driving of silicon qubit by amplitude and phase modulation
A circular-modulated concatenated continuous driving (CMCCD) protocol for silicon qubits cancels counter-rotating errors via dual modulation and shows higher simulated fidelity plus improved experimental robustness to detuning and Rabi errors compared to standard Rabi or prior CCD drives.
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Benchmarking Optimization Algorithms for Automated Calibration of Quantum Devices
Simulations show CMA-ES outperforms Nelder-Mead and other algorithms for quantum device calibration across low- and high-dimensional regimes.