Quantum versus classical modeling of pure dephasing in Deutsch's algorithm produces identical single-run outcomes but stark differences on repeated runs, reproduced on IBM processors and showing complex behavior in NV centers.
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Theoretical study of flopping-mode qubits in Si/SiGe showing that high-fidelity operation is achievable across valley configurations when pulses are tuned for weak noise or when valley splittings are large and phase differences small for strong noise.
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Signatures of quantum noise in the operation of Deutsch's algorithm
Quantum versus classical modeling of pure dephasing in Deutsch's algorithm produces identical single-run outcomes but stark differences on repeated runs, reproduced on IBM processors and showing complex behavior in NV centers.
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The effects of alloy disorder on strongly-driven flopping mode qubits in Si/SiGe
Theoretical study of flopping-mode qubits in Si/SiGe showing that high-fidelity operation is achievable across valley configurations when pulses are tuned for weak noise or when valley splittings are large and phase differences small for strong noise.