Optimized nanobeam cavities with fins achieve Q-factors up to 70,000 and outcoupling efficiencies above 90%, with fabricated passive InP devices reaching record Q-factors of 170,000 without fins.
Yamamoto , author Y
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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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Nanobeam Laser Cavities with High Quality-factor and Near-Unity Outcoupling Efficiency
Optimized nanobeam cavities with fins achieve Q-factors up to 70,000 and outcoupling efficiencies above 90%, with fabricated passive InP devices reaching record Q-factors of 170,000 without fins.
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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.