Wafer-scale CMOS-compatible graphene Josephson field-effect transistors
2024
Online
report
Electrostatically tunable Josephson field-effect transistors (JoFETs) are one of the most desired building blocks of quantum electronics. JoFET applications range from parametric amplifiers and superconducting qubits to a variety of integrated superconducting circuits. Here, we report on graphene JoFET devices fabricated with wafer-scale complementary metal-oxide-semiconductor (CMOS) compatible processing based on wet transfer of chemical vapour deposited graphene, atomic-layer-deposited Al$_{2}$O$_{3}$ gate oxide, and evaporated superconducting Ti/Al source, drain, and gate contacts. By optimizing the contact resistance down to $\sim$ 170 $\Omega \mu m$, we observe proximity-induced superconductivity in the JoFET channels with different gate lengths of 150 - 350 nm. The Josephson junction devices show reproducible critical current $I_{\text{C}}$ tunablity with the local top gate. Our JoFETs are in short diffusive limit with the $I_{\text{C}}$ reaching up to $\sim\,$3 $\mu A$ for a 50 $\mu m$ channel width. Overall, our demonstration of CMOS-compatible 2D-material-based JoFET fabrication process is an important step toward graphene-based integrated quantum circuits.
Comment: revised manuscript; 30 pages, 4 figures, 1 table, 12 supplementary figures
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Wafer-scale CMOS-compatible graphene Josephson field-effect transistors
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Autor/in / Beteiligte Person: | Generalov, Andrey A. ; Viisanen, Klaara L. ; Senior, Jorden ; Ferreira, Bernardo R. ; Ma, Jian ; Möttönen, Mikko ; Prunnila, Mika ; Bohuslavskyi, Heorhii |
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Veröffentlichung: | 2024 |
Medientyp: | report |
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