Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion

Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion

Abstract The fusion power density produced in a tokamak is proportional to its magnetic field strength to the fourth power. Second-generation high temperature superconductor (2G HTS) wires demonstrate remarkable engineering current density (averaged over the full wire), J E , at very high magnetic f...

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Main Authors: A. Molodyk, S. Samoilenkov, A. Markelov, P. Degtyarenko, S. Lee, V. Petrykin, M. Gaifullin, A. Mankevich, A. Vavilov, B. Sorbom, J. Cheng, S. Garberg, L. Kesler, Z. Hartwig, S. Gavrilkin, A. Tsvetkov, T. Okada, S. Awaji, D. Abraimov, A. Francis, G. Bradford, D. Larbalestier, C. Senatore, M. Bonura, A. E. Pantoja, S. C. Wimbush, N. M. Strickland, A. Vasiliev
Format: Article
Language:English
Published: Nature Publishing Group 2021-01-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-81559-z
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spelling doaj-b43d4e2825b447ccb1d5b9e4efadef182021-01-24T12:31:07ZengNature Publishing GroupScientific Reports2045-23222021-01-0111111110.1038/s41598-021-81559-zDevelopment and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusionA. Molodyk0S. Samoilenkov1A. Markelov2P. Degtyarenko3S. Lee4V. Petrykin5M. Gaifullin6A. Mankevich7A. Vavilov8B. Sorbom9J. Cheng10S. Garberg11L. Kesler12Z. Hartwig13S. Gavrilkin14A. Tsvetkov15T. Okada16S. Awaji17D. Abraimov18A. Francis19G. Bradford20D. Larbalestier21C. Senatore22M. Bonura23A. E. Pantoja24S. C. Wimbush25N. M. Strickland26A. Vasiliev27S-InnovationsS-InnovationsS-InnovationsSuperOxSuperOx JapanSuperOx JapanSuperOx JapanS-InnovationsS-InnovationsCommonwealth Fusion SystemsCommonwealth Fusion SystemsCommonwealth Fusion SystemsCommonwealth Fusion SystemsMassachusetts Institute of TechnologyP.N. Lebedev Physics Institute, Russian Academy of SciencesP.N. Lebedev Physics Institute, Russian Academy of SciencesInstitute for Materials Research, Tohoku UniversityInstitute for Materials Research, Tohoku UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityNational High Magnetic Field Laboratory, Florida State UniversityUniversity of GenevaUniversity of GenevaRobinson Research Institute, Victoria University of WellingtonRobinson Research Institute, Victoria University of WellingtonRobinson Research Institute, Victoria University of WellingtonNational Research Centre “Kurchatov Institute”Abstract The fusion power density produced in a tokamak is proportional to its magnetic field strength to the fourth power. Second-generation high temperature superconductor (2G HTS) wires demonstrate remarkable engineering current density (averaged over the full wire), J E , at very high magnetic fields, driving progress in fusion and other applications. The key challenge for HTS wires has been to offer an acceptable combination of high and consistent superconducting performance in high magnetic fields, high volume supply, and low price. Here we report a very high and reproducible J E in practical HTS wires based on a simple YBa2Cu3O7 (YBCO) superconductor formulation with Y2O3 nanoparticles, which have been delivered in just nine months to a commercial fusion customer in the largest-volume order the HTS industry has seen to date. We demonstrate a novel YBCO superconductor formulation without the c-axis correlated nano-columnar defects that are widely believed to be prerequisite for high in-field performance. The simplicity of this new formulation allows robust and scalable manufacturing, providing, for the first time, large volumes of consistently high performance wire, and the economies of scale necessary to lower HTS wire prices to a level acceptable for fusion and ultimately for the widespread commercial adoption of HTS.https://doi.org/10.1038/s41598-021-81559-z
collection DOAJ
language English
format Article
sources DOAJ
author A. Molodyk
S. Samoilenkov
A. Markelov
P. Degtyarenko
S. Lee
V. Petrykin
M. Gaifullin
A. Mankevich
A. Vavilov
B. Sorbom
J. Cheng
S. Garberg
L. Kesler
Z. Hartwig
S. Gavrilkin
A. Tsvetkov
T. Okada
S. Awaji
D. Abraimov
A. Francis
G. Bradford
D. Larbalestier
C. Senatore
M. Bonura
A. E. Pantoja
S. C. Wimbush
N. M. Strickland
A. Vasiliev
spellingShingle A. Molodyk
S. Samoilenkov
A. Markelov
P. Degtyarenko
S. Lee
V. Petrykin
M. Gaifullin
A. Mankevich
A. Vavilov
B. Sorbom
J. Cheng
S. Garberg
L. Kesler
Z. Hartwig
S. Gavrilkin
A. Tsvetkov
T. Okada
S. Awaji
D. Abraimov
A. Francis
G. Bradford
D. Larbalestier
C. Senatore
M. Bonura
A. E. Pantoja
S. C. Wimbush
N. M. Strickland
A. Vasiliev
Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
Scientific Reports
author_facet A. Molodyk
S. Samoilenkov
A. Markelov
P. Degtyarenko
S. Lee
V. Petrykin
M. Gaifullin
A. Mankevich
A. Vavilov
B. Sorbom
J. Cheng
S. Garberg
L. Kesler
Z. Hartwig
S. Gavrilkin
A. Tsvetkov
T. Okada
S. Awaji
D. Abraimov
A. Francis
G. Bradford
D. Larbalestier
C. Senatore
M. Bonura
A. E. Pantoja
S. C. Wimbush
N. M. Strickland
A. Vasiliev
author_sort A. Molodyk
title Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
title_short Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
title_full Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
title_fullStr Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
title_full_unstemmed Development and large volume production of extremely high current density YBa2Cu3O7 superconducting wires for fusion
title_sort development and large volume production of extremely high current density yba2cu3o7 superconducting wires for fusion
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-01-01
description Abstract The fusion power density produced in a tokamak is proportional to its magnetic field strength to the fourth power. Second-generation high temperature superconductor (2G HTS) wires demonstrate remarkable engineering current density (averaged over the full wire), J E , at very high magnetic fields, driving progress in fusion and other applications. The key challenge for HTS wires has been to offer an acceptable combination of high and consistent superconducting performance in high magnetic fields, high volume supply, and low price. Here we report a very high and reproducible J E in practical HTS wires based on a simple YBa2Cu3O7 (YBCO) superconductor formulation with Y2O3 nanoparticles, which have been delivered in just nine months to a commercial fusion customer in the largest-volume order the HTS industry has seen to date. We demonstrate a novel YBCO superconductor formulation without the c-axis correlated nano-columnar defects that are widely believed to be prerequisite for high in-field performance. The simplicity of this new formulation allows robust and scalable manufacturing, providing, for the first time, large volumes of consistently high performance wire, and the economies of scale necessary to lower HTS wire prices to a level acceptable for fusion and ultimately for the widespread commercial adoption of HTS.
url https://doi.org/10.1038/s41598-021-81559-z
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