Superconducting qubits on silicon substrates for quantum device integration

We present the fabrication and characterization of transmon qubits formed from aluminum Josephson junctions on two different silicon-based substrates: (i) high-resistivity silicon (Si) and (ii) silicon-on-insulator (SOI). Key to the qubit fabrication process is the use of an anhydrous hydrofluoric v...

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Veröffentlicht in:arXiv.org 2017-04
Hauptverfasser: Keller, Andrew J, Dieterle, Paul B, Fang, Michael, Berger, Brett, Fink, Johannes M, Painter, Oskar
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Sprache:eng
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Zusammenfassung:We present the fabrication and characterization of transmon qubits formed from aluminum Josephson junctions on two different silicon-based substrates: (i) high-resistivity silicon (Si) and (ii) silicon-on-insulator (SOI). Key to the qubit fabrication process is the use of an anhydrous hydrofluoric vapor process which removes silicon surface oxides without attacking aluminum, and in the case of SOI substrates, selectively removes the lossy buried oxide underneath the qubit region. For qubits with a transition frequency of approximately \(5\)GHz we find qubit lifetimes and coherence times comparable to those attainable on sapphire substrates (\(T_{1,\text{Si}} = 27\mu\)s, \(T_{2,\text{Si}} = 6.6\mu\)s; \(T_{1,\text{SOI}} = 3.5\mu\)s, \(T_{2,\text{SOI}} = 2.2\mu\)s). This qubit fabrication process in principle permits co-fabrication of silicon photonic and mechanical elements, providing a route towards chip-scale integration of electro-opto-mechanical transducers for quantum networking of superconducting microwave quantum circuits.
ISSN:2331-8422
DOI:10.48550/arxiv.1703.10195