Towards scalable silicon quantum computing

We report the efforts and challenges dedicated towards building a scalable quantum computer based on Si spin qubits. We review the advantages of relying on devices fabricated in a thin film technology as their properties can be in situ tuned by the back gate voltage, which prefigures tuning capabili...

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Bibliographic Details
Main Authors: Vinet, M., Hutin, L., Bertrand, B., Barraud, S., Hartmann, J.-M., Kim, Y.-J., Mazzocchi, V., Amisse, A., Bohuslavskyi, H., Bourdet, L., Crippa, A., Jehl, X., Maurand, R., Niquet, Y.-M., Sanquer, M., Venitucci, B., Jadot, B., Chanrion, E., Mortemousque, P.-A., Spence, C., Urdampilleta, M., De Franceschi, S., Meunier, T.
Format: Conference Proceeding
Language:English
Subjects:
Couplings
Logic gates
Quantum dots
Qubit
Rough surfaces
Silicon
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Summary:We report the efforts and challenges dedicated towards building a scalable quantum computer based on Si spin qubits. We review the advantages of relying on devices fabricated in a thin film technology as their properties can be in situ tuned by the back gate voltage, which prefigures tuning capabilities in scalable qubits architectures.
ISSN:2156-017X
DOI:10.1109/IEDM.2018.8614675