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High-field transport properties of a P-doped BaFe2As2 film on technical substrate.


ABSTRACT: High temperature (high-Tc) superconductors like cuprates have superior critical current properties in magnetic fields over other superconductors. However, superconducting wires for high-field-magnet applications are still dominated by low-Tc Nb3Sn due probably to cost and processing issues. The recent discovery of a second class of high-Tc materials, Fe-based superconductors, may provide another option for high-field-magnet wires. In particular, AEFe2As2 (AE: Alkali earth elements, AE-122) is one of the best candidates for high-field-magnet applications because of its high upper critical field, Hc2, moderate Hc2 anisotropy, and intermediate Tc. Here we report on in-field transport properties of P-doped BaFe2As2 (Ba-122) thin films grown on technical substrates by pulsed laser deposition. The P-doped Ba-122 coated conductor exceeds a transport Jc of 105?A/cm2 at 15?T for main crystallographic directions of the applied field, which is favourable for practical applications. Our P-doped Ba-122 coated conductors show a superior in-field Jc over MgB2 and NbTi, and a comparable level to Nb3Sn above 20?T. By analysing the E?-?J curves for determining Jc, a non-Ohmic linear differential signature is observed at low field due to flux flow along the grain boundaries. However, grain boundaries work as flux pinning centres as demonstrated by the pinning force analysis.

SUBMITTER: Iida K 

PROVIDER: S-EPMC5227693 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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High-field transport properties of a P-doped BaFe<sub>2</sub>As<sub>2</sub> film on technical substrate.

Iida Kazumasa K   Sato Hikaru H   Tarantini Chiara C   Hänisch Jens J   Jaroszynski Jan J   Hiramatsu Hidenori H   Holzapfel Bernhard B   Hosono Hideo H  

Scientific reports 20170112


High temperature (high-T<sub>c</sub>) superconductors like cuprates have superior critical current properties in magnetic fields over other superconductors. However, superconducting wires for high-field-magnet applications are still dominated by low-T<sub>c</sub> Nb<sub>3</sub>Sn due probably to cost and processing issues. The recent discovery of a second class of high-T<sub>c</sub> materials, Fe-based superconductors, may provide another option for high-field-magnet wires. In particular, AEFe<s  ...[more]

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