Kinemon: inductively shunted transmon artificial atom

We experimentally investigate inductively shunted transmon-type artificial atoms as an alternative to address the challenges of low anharmonicity and the need for strong charge dispersion in superconducting quantum systems. We characterize several devices with varying geometries and parameters (Jose...

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Bibliographic Details
Main Authors: Kalacheva, Daria, Fedorov, Gleb, Zotova, Julia, Kadyrmetov, Shamil, Kirkovskii, Alexey, Dmitriev, Aleksei, Astafiev, Oleg
Format: Journal Article
Language:English
Published: 09-06-2023
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Summary:We experimentally investigate inductively shunted transmon-type artificial atoms as an alternative to address the challenges of low anharmonicity and the need for strong charge dispersion in superconducting quantum systems. We characterize several devices with varying geometries and parameters (Josephson energies and capacitances), and find a good agreement with calculations. Our approach allows us to retain the benefits of transmon qubit engineering and fabrication technology and high coherence, while potentially increasing anharmonicity. The approach offers an alternative platform for the development of scalable multi-qubit systems in quantum computing.
DOI:10.48550/arxiv.2306.05830