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Superconductive Tunneling into Niobium-Tin Thin Films

Moore, D. F. / Rowell, J. M. / Beasley, M. R.

Abstract Oxide layer tunnel junctions exhibiting both quasi-particle and Josephson tunneling were produced by overlaying lead on niobium-tin thin films. The superconducting transition temperature and average energy gap of the Nb-Sn both increased as the tin concentration was increased toward Nb3Sn and reached maximum values of 17.2°K and 3.2 meV, respectively, or 2Δ = 4.3 kTc.

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Superconductive Tunneling into Niobium-Tin Thin Films

Moore, D. F. / Rowell, J. M. / Beasley, M. R.

Abstract Oxide layer tunnel junctions exhibiting both quasi-particle and Josephson tunneling were produced by overlaying lead on niobium-tin thin films. The superconducting transition temperature and average energy gap of the Nb-Sn both increased as the tin concentration was increased toward Nb3Sn and reached maximum values of 17.2°K and 3.2 meV, respectively, or 2Δ = 4.3 kTc.

Superconductive Tunneling into Niobium-Tin Thin Films

Moore, D. F. / Rowell, J. M. / Beasley, M. R.

Abstract Oxide layer tunnel junctions exhibiting both quasi-particle and Josephson tunneling were produced by overlaying lead on niobium-tin thin films. The superconducting transition temperature and average energy gap of the Nb-Sn both increased as the tin concentration was increased toward Nb3Sn and reached maximum values of 17.2°K and 3.2 meV, respectively, or 2Δ = 4.3 kTc.

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Title:

Superconductive Tunneling into Niobium-Tin Thin Films

Contributors:

Moore, D. F. (author) / Rowell, J. M. (author) / Beasley, M. R. (author)

Published in:

Superconductivity in d- and f-Band Metals ; 429

Publication date:

1976-01-01

Size:

1 pages

ISBN:

978-1-4615-8797-2 , 978-1-4615-8795-8

DOI:

https://doi.org/10.1007/978-1-4615-8795-8_25

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Physics , Strongly Correlated Systems, Superconductivity , Characterization and Evaluation of Materials

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