Magnetic flux penetration in nanoscale wedge-shaped superconducting thin films

[en] Thickness uniformity is regarded as an important parameter in designing thin film devices. However, some applications based on films with nonuniform thickness have recently emerged, such as gas sensors and optimized materials based on the gradual change of film composition. This work deals with superconducting Pb thin films with a thickness gradient prepared with the aid of a diffuse stencil mask. Atomic force microscopy and energy-dispersive x-ray spectroscopy show variations show variations in the range 90 nm–154 nm. Quantitative magneto-optical images reveal interesting features during both the abrupt and the smooth penetration regimes of magnetic flux, as well as the thickness-dependent critical current density (Jc). In addition, we observe a gradual superconducting transition as the upper critical field is progressively reached for certain thicknesses. Furthermore, the hysteresis observed for triggering flux avalanches when increasing and decreasing magnetic fields is also accounted for by the Jc profile evolution along the thickness gradient. Numerical simulations based on the thermomagnetic model are in fair agreement with the experimental data. These findings demonstrate that wedge-shaped films are a viable approach to investigate, in a continuous fashion, thickness-dependent properties of superconducting materials.

Disciplines :

Physics

Author, co-author :

Pinheiro, L. B. L. G.

Jiang, L.

Abbey, E. A.

Chaves, Davi A. D.

Chiquito, A. J.

Johansen, T. H.

Van de Vondel, J.

Xue, C.

Zhou, Y.-H.

Silhanek, Alejandro ; Université de Liège - ULiège > Département de physique > Physique expérimentale des matériaux nanostructurés

Ortiz, W. A.

Motta, M.

Language :

English

Title :

Magnetic flux penetration in nanoscale wedge-shaped superconducting thin films

Publication date :

27 December 2022

Journal title :

Physical Review. B

ISSN :

2469-9950

eISSN :

2469-9969

Publisher :

American Physical Society (APS)

Volume :

106

Issue :

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://link.aps.org/article/10.1103/PhysRevB.106.224520

Funders :

FAPESP - Fundação de Amparo à Pesquisa do Estado de São Paulo [BR]
CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico [BR]
CAPES - Coordenação de Aperfeicoamento de Pessoal de Nível Superior [BR]
NSCF - National Natural Science Foundation of China [CN]
FWO - Fonds Wetenschappelijk Onderzoek Vlaanderen [BE]
F.R.S.-FNRS - Fonds de la Recherche Scientifique [BE]
COST - European Cooperation in Science and Technology [BE]
CSC - China Scholarship Council [CN]

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since 02 January 2023

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