2022-Japan-William-Oliver

Conference Video|Duration: 35:38
January 27, 2022
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    Superconducting qubits are coherent artificial atoms assembled from electrical circuit elements and microwave optical components. Their lithographic scalability, compatibility with microwave control, and operability at nanosecond time scales all converge to make the superconducting qubit a highly attractive candidate for quantum computation. Over the past decade, spectacular improvements in the manufacturing and control of these devices have moved these devices from the realm of scientific curiosity to the threshold of technical reality. In this talk, we present the progress, challenges, and opportunities ahead in the engineering larger scale processors.
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  • Video details
    Superconducting qubits are coherent artificial atoms assembled from electrical circuit elements and microwave optical components. Their lithographic scalability, compatibility with microwave control, and operability at nanosecond time scales all converge to make the superconducting qubit a highly attractive candidate for quantum computation. Over the past decade, spectacular improvements in the manufacturing and control of these devices have moved these devices from the realm of scientific curiosity to the threshold of technical reality. In this talk, we present the progress, challenges, and opportunities ahead in the engineering larger scale processors.
Locked Interactive transcript

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