Long-Range Superconducting Proximity Effect in Nickel Nanowires

When a ferromagnet is placed in contact with a superconductor, owing to incompatible spin order, the Cooper pairs from the superconductor cannot survive more than one or two nanometers inside the ferromagnet. This is confirmed in the measurements of ferromagnetic nickel (Ni) nanowires contacted by s...

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Bibliographic Details
Published in:arXiv.org 2021-12
Main Authors: Jiang, Jue, Zhao, Weiwei, Wang, Fei, Du, Renzhong, Ludi Miao, Wang, Ke, Li, Qi, Cui-Zu, Chang, Chan, Moses H W
Format: Article
Language:English
Subjects:
Buffer layers
Cooper pairs
Copper
Ferromagnetism
Image transmission
Nanowires
Nickel
Niobium
Proximity
Proximity effect (electricity)
Silicon dioxide
Silicon substrates
Superconductivity
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Summary:When a ferromagnet is placed in contact with a superconductor, owing to incompatible spin order, the Cooper pairs from the superconductor cannot survive more than one or two nanometers inside the ferromagnet. This is confirmed in the measurements of ferromagnetic nickel (Ni) nanowires contacted by superconducting niobium (Nb) leads. However, when a 3 nm thick copper oxide (CuO) buffer layer made by exposing an evaporated or a sputtered 3 nm Cu film to air, is inserted between the Nb electrodes and the Ni wire, the spatial extent of the superconducting proximity range is dramatically increased from 2 to a few tens of nanometers. Scanning transmission electron microscope study confirms the formation of a 3 nm thick CuO layer when an evaporated Cu film is exposed to air. Magnetization measurements of such a 3 nm CuO film on a SiO2/Si substrate and on Nb/SiO2/Si show clear evidence of ferromagnetism. One way to understand the long-range proximity effect in the Ni nanowire is that the CuO buffer layer with ferromagnetism facilitates the conversion of singlet superconductivity in Nb into triplet supercurrent along the Ni nanowires.
ISSN:2331-8422
DOI:10.48550/arxiv.2107.08018