Ballistic supercurrent discretization and micrometer-long Josephson coupling in germanium

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Hendrickx, N.W.

Tagliaferri, M.L.V.

Kouwenhoven, M.

Li, R.

Franke, D.P.

Sammak, A.

Brinkman, A.

Scappucci, G.

Veldhorst, M.
We fabricate Josephson field-effect transistors in germanium quantum wells contacted by superconducting aluminum and demonstrate supercurrents carried by holes that extend over junction lengths of several micrometers. In superconducting quantum point contacts we observe discretization of supercurrent, as well as Fabry-Perot resonances, demonstrating ballistic transport. The magnetic field dependence of the supercurrent follows a clear Fraunhofer-like pattern, and Shapiro steps appear upon microwave irradiation. Multiple Andreev reflections give rise to conductance enhancement and evidence a transparent interface, confirmed by analyzing the excess current. These demonstrations of ballistic superconducting transport are promising for hybrid quantum technology in germanium.
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BallisticsMicrometersMicrowave irradiationPoint contactsQuantum chemistryBallistic transportsGermanium quantum wellsJosephson couplingJosephson field effect transistorsMagnetic field dependencesMultiple andreev reflectionsQuantum point contactQuantum technologiesField effect transistors
TNO Identifier
865629
Repository link
https://resolver.tno.nl/uuid:bd3c26ab-064a-4452-a355-a8f81a6a05a6
ISSN
24699950
Source
Physical Review B, 99(7)
Publisher
American Physical Society AIP
Article nr.
075435
Collation
6 p.
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