Author
Listed:
- Vasily S. Stolyarov
(Moscow Institute of Physics and Technology
Sorbonne Université
Institute of Solid State Physics RAS
MSU)
- Tristan Cren
(Sorbonne Université)
- Christophe Brun
(Sorbonne Université)
- Igor A. Golovchanskiy
(Moscow Institute of Physics and Technology
National University of Science and Technology MISIS)
- Olga V. Skryabina
(Moscow Institute of Physics and Technology
Institute of Solid State Physics RAS)
- Daniil I. Kasatonov
(Moscow Institute of Physics and Technology)
- Mikhail M. Khapaev
(Moscow Institute of Physics and Technology
Faculty of Computational Mathematics and Cybernetics MSU
MSU)
- Mikhail Yu. Kupriyanov
(Moscow Institute of Physics and Technology
MSU
Kazan Federal University)
- Alexander A. Golubov
(Moscow Institute of Physics and Technology
Faculty of Science and Technology and MESA+ Institute of Nanotechnology)
- Dimitri Roditchev
(Moscow Institute of Physics and Technology
Sorbonne Université
PSL Research University
Sorbonne Université)
Abstract
Vortices in quantum condensates exist owing to a macroscopic phase coherence. Here we show, both experimentally and theoretically, that a quantum vortex with a well-defined core can exist in a rather thick normal metal, proximized with a superconductor. Using scanning tunneling spectroscopy we reveal a proximity vortex lattice at the surface of 50 nm—thick Cu-layer deposited on Nb. We demonstrate that these vortices have regular round cores in the centers of which the proximity minigap vanishes. The cores are found to be significantly larger than the Abrikosov vortex cores in Nb, which is related to the effective coherence length in the proximity region. We develop a theoretical approach that provides a fully self-consistent picture of the evolution of the vortex with the distance from Cu/Nb interface, the interface impedance, applied magnetic field, and temperature. Our work opens a way for the accurate tuning of the superconducting properties of quantum hybrids.
Suggested Citation
Vasily S. Stolyarov & Tristan Cren & Christophe Brun & Igor A. Golovchanskiy & Olga V. Skryabina & Daniil I. Kasatonov & Mikhail M. Khapaev & Mikhail Yu. Kupriyanov & Alexander A. Golubov & Dimitri Ro, 2018.
"Expansion of a superconducting vortex core into a diffusive metal,"
Nature Communications, Nature, vol. 9(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04582-1
DOI: 10.1038/s41467-018-04582-1
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