BaMO3 (M = Zr, Hf) Doped REBCO Tapes Fabricated by Fluorine-Free MOD

Using a low-cost fluorine-free metal organic decomposition (FF-MOD) method, REBCO films with BaMO 3 (BMO, M = Zr, Hf) artificial pinning centers were fabricated. When M elements are conventionally added to the solution, the size of BMO formation depends on the growth conditions. But by adding prefor...

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Published inIEEE transactions on applied superconductivity Vol. 33; no. 5; pp. 1 - 5
Main Authors Yoshihara, Tatsuhiko, Honda, Genki, Nagaishi, Tatsuoki, Kobayashi, Shinichi, Kanie, Kiyoshi, Okada, Tatsunori, Awaji, Satoshi
Format Journal Article
LanguageEnglish
Published New York IEEE 01.08.2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
APCs
coated conductors
Decomposition
Fluorine
fluorine-free metal organic decomposition (MOD)
flux pinning
Heating systems
Low temperature
Metals
Nanoparticles
Pinning
Sintering
Temperature distribution
X-ray scattering
Zirconium
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Summary:Using a low-cost fluorine-free metal organic decomposition (FF-MOD) method, REBCO films with BaMO 3 (BMO, M = Zr, Hf) artificial pinning centers were fabricated. When M elements are conventionally added to the solution, the size of BMO formation depends on the growth conditions. But by adding preformed BMO nanoparticles, the size can be maintained on the nanometer order, meaning the nanoparticles act as effective pinning centers at low temperatures and magnetic fields. Adopting a polycrystallization sintering process enables the BaCO 3 to decompose completely and polycrystalline REBCO films to form prior to REBCO orientation. After final sintering, REBCO orientation can be achieved over a wide temperature range even with the addition of BMO nanoparticles. By utilizing preformed BMO nanoparticles and a polycrystallization sintering process, BMO doped GdBCO over 100 m-long tapes which have a thickness of more than 3 μm can be achieved. This is the first report of 120-meter-long artificial pinned REBCO tapes with I c exceeding 200 A/4 mm width at 77 K, self-field made by the FF-MOD method.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2022.3233807