Quantum-Control Research Cites Broad Quantum-Computing Literature

A references compilation lists foundational and recent peer-reviewed papers (2004–2023) on superconducting qubits, circuit quantum electrodynamics, quantum speed limits, and optimal control techniques, citing authors such as Blais, Girvin, Kjaergaard, and Howard. The list emphasizes developments in gate fidelity, pulse-shaping, and fault-tolerant thresholds. It serves as a targeted bibliography supporting research and development in high-fidelity quantum control and superconducting quantum architectures.
Key Points
- 1Lists foundational and recent papers on superconducting qubits, circuit QED, and quantum control techniques
- 2Highlights progress in gate speed limits, pulse optimization, and fault-tolerance benchmarks across cited work
- 3Informs designers and researchers developing high-fidelity control pulses and error-corrected superconducting architectures
Scoring Rationale
High relevance and peer-reviewed sources drive the score, but it's only a bibliography without new results or analysis.
Sources
Public references used for this report.
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