Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes

Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes

Applications of REBCO coated conductors are now being developed for a very wide range of temperatures and magnetic fields and it is not yet clear whether vortex pinning strategies aimed for high temperature, low field operation are equally valid at lower temperatures and higher fields. A detailed ch...

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Main Authors: A. Xu, L. Delgado, N. Khatri, Y. Liu, V. Selvamanickam, D. Abraimov, J. Jaroszynski, F. Kametani, D. C. Larbalestier
Format: Article
Language:English
Published: AIP Publishing LLC 2014-04-01
Series:APL Materials
Online Access:http://dx.doi.org/10.1063/1.4872060
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spelling doaj-cb87c65139cf4b14b3fae53730d88ba72020-11-24T22:21:37ZengAIP Publishing LLCAPL Materials2166-532X2014-04-0124046111046111-810.1063/1.4872060014404APMStrongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapesA. Xu0L. Delgado1N. Khatri2Y. Liu3V. Selvamanickam4D. Abraimov5J. Jaroszynski6F. Kametani7D. C. Larbalestier8Department of Mechanical Engineering and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204, USADepartment of Mechanical Engineering and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204, USADepartment of Mechanical Engineering and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204, USADepartment of Mechanical Engineering and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204, USADepartment of Mechanical Engineering and Texas Center for Superconductivity, University of Houston, Houston, Texas 77204, USAApplied Superconductivity Center, National High Magnet Field Laboratory, Florida State University, Tallahassee, Florida 32310, USAApplied Superconductivity Center, National High Magnet Field Laboratory, Florida State University, Tallahassee, Florida 32310, USAApplied Superconductivity Center, National High Magnet Field Laboratory, Florida State University, Tallahassee, Florida 32310, USAApplied Superconductivity Center, National High Magnet Field Laboratory, Florida State University, Tallahassee, Florida 32310, USAApplications of REBCO coated conductors are now being developed for a very wide range of temperatures and magnetic fields and it is not yet clear whether vortex pinning strategies aimed for high temperature, low field operation are equally valid at lower temperatures and higher fields. A detailed characterization of the superconducting properties of a 15 mol. % Zr-added REBCO thin film made by metal organic chemical vapor deposition, from 4.2 to 77 K under magnetic fields up to 31 T is presented in this article. Even at a such high level of Zr addition, Tc depression has been avoided (Tc = 91 K), while at the same time an exceptionally high irreversibility field Hirr ≈ 14.8 T at 77 K and a remarkably high vortex pinning force density Fp ≈ 1.7 TN/m3 at 4.2 K have been achieved. We ascribe the excellent pinning performance at high temperatures to the high density (equivalent vortex matching field ∼7 T) of self-assembled BZO nanorods, while the low temperature pinning force is enhanced by large additional pinning which we ascribe to strain-induced point defects induced in the REBCO matrix by the BZO nanorods. Our results suggest even more room for further performance enhancement of commercial REBCO coated conductors and point the way to REBCO coil applications at liquid nitrogen temperatures since the critical current density Jc(H//c) characteristic at 77 K are now almost identical to those of fully optimized Nb-Ti at 4 K.http://dx.doi.org/10.1063/1.4872060
collection DOAJ
language English
format Article
sources DOAJ
author A. Xu
L. Delgado
N. Khatri
Y. Liu
V. Selvamanickam
D. Abraimov
J. Jaroszynski
F. Kametani
D. C. Larbalestier
spellingShingle A. Xu
L. Delgado
N. Khatri
Y. Liu
V. Selvamanickam
D. Abraimov
J. Jaroszynski
F. Kametani
D. C. Larbalestier
Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
APL Materials
author_facet A. Xu
L. Delgado
N. Khatri
Y. Liu
V. Selvamanickam
D. Abraimov
J. Jaroszynski
F. Kametani
D. C. Larbalestier
author_sort A. Xu
title Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
title_short Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
title_full Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
title_fullStr Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
title_full_unstemmed Strongly enhanced vortex pinning from 4 to 77 K in magnetic fields up to 31 T in 15 mol.% Zr-added (Gd, Y)-Ba-Cu-O superconducting tapes
title_sort strongly enhanced vortex pinning from 4 to 77 k in magnetic fields up to 31 t in 15 mol.% zr-added (gd, y)-ba-cu-o superconducting tapes
publisher AIP Publishing LLC
series APL Materials
issn 2166-532X
publishDate 2014-04-01
description Applications of REBCO coated conductors are now being developed for a very wide range of temperatures and magnetic fields and it is not yet clear whether vortex pinning strategies aimed for high temperature, low field operation are equally valid at lower temperatures and higher fields. A detailed characterization of the superconducting properties of a 15 mol. % Zr-added REBCO thin film made by metal organic chemical vapor deposition, from 4.2 to 77 K under magnetic fields up to 31 T is presented in this article. Even at a such high level of Zr addition, Tc depression has been avoided (Tc = 91 K), while at the same time an exceptionally high irreversibility field Hirr ≈ 14.8 T at 77 K and a remarkably high vortex pinning force density Fp ≈ 1.7 TN/m3 at 4.2 K have been achieved. We ascribe the excellent pinning performance at high temperatures to the high density (equivalent vortex matching field ∼7 T) of self-assembled BZO nanorods, while the low temperature pinning force is enhanced by large additional pinning which we ascribe to strain-induced point defects induced in the REBCO matrix by the BZO nanorods. Our results suggest even more room for further performance enhancement of commercial REBCO coated conductors and point the way to REBCO coil applications at liquid nitrogen temperatures since the critical current density Jc(H//c) characteristic at 77 K are now almost identical to those of fully optimized Nb-Ti at 4 K.
url http://dx.doi.org/10.1063/1.4872060
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