Adjusting quantum gate timing via scheduling suppresses idling errors and improves accuracy in simulations and hardware experiments without added gates, supported by an analytical density-matrix derivation.
Noise spectroscopy through dynamical decoupling with a superconducting flux qubit
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A review summarizing superconducting qubit types, DiVincenzo criteria implementations, coherence limits from defects, and large-scale integration strategies for quantum computing.
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Idling error suppression through gate scheduling
Adjusting quantum gate timing via scheduling suppresses idling errors and improves accuracy in simulations and hardware experiments without added gates, supported by an analytical density-matrix derivation.
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Review of Superconducting Qubit Devices and Their Large-Scale Integration
A review summarizing superconducting qubit types, DiVincenzo criteria implementations, coherence limits from defects, and large-scale integration strategies for quantum computing.