Ballistic supercurrent discretization and micrometer-long Josephson coupling in germanium

N. W. Hendrickx; M. L.V. Tagliaferri; M. Kouwenhoven; R. Li; D. P. Franke; A. Sammak; A. Brinkman; G. Scappucci; M. Veldhorst

doi:10.1103/PhysRevB.99.075435

Ballistic supercurrent discretization and micrometer-long Josephson coupling in germanium

N. W. Hendrickx, M. L.V. Tagliaferri, M. Kouwenhoven, R. Li, D. P. Franke, A. Sammak, A. Brinkman, G. Scappucci, M. Veldhorst

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Abstract

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-Pérot 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.

Original language	English
Article number	075435
Number of pages	6
Journal	Physical Review B
Volume	99
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevB.99.075435
Publication status	Published - 2019

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title = "Ballistic supercurrent discretization and micrometer-long Josephson coupling in germanium",

abstract = "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-P{\'e}rot 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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AU - Hendrickx, N. W.

AU - Tagliaferri, M. L.V.

AU - Kouwenhoven, M.

AU - Li, R.

AU - Franke, D. P.

AU - Sammak, A.

AU - Brinkman, A.

AU - Scappucci, G.

AU - Veldhorst, M.

PY - 2019

Y1 - 2019

N2 - 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-Pérot 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.

AB - 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-Pérot 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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VL - 99

JO - Physical Review B

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Ballistic supercurrent discretization and micrometer-long Josephson coupling in germanium

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