مرکز منطقه ای اطلاع رساني علوم و فناوري - Current Transport Properties of TFA-MOD Processed Long-Length <inline-formula> <img src="/images/tex/25845.gif" alt="mbox{Y}_{math\\rm{x}}mbox{Gd}_{1mbox{-}{math\\rm{x}}}mbox{Ba}_{2}mbox{Cu}_{3}mbox{O} _{math\\rm{y}}"> </inline-formula> Coated Conductor D

DocumentCode :

112074

Title :

Current Transport Properties of TFA-MOD Processed Long-Length $mbox{Y}_{math\\rm{x}}mbox{Gd}_{1mbox{-}{math\\rm{x}}}mbox{Ba}_{2}mbox{Cu}_{3}mbox{O} _{math\\rm{y}}$ Coated Conductor D

Author :

Inoue, Masayoshi ; Tanaka, Kenta ; Imamura, Kazutaka ; Higashikawa, Kohei ; Kimura, Kazunari ; Takahashi, Yasuo ; Koizumi, Tsutomu ; Hasegawa, Takayo ; Awaji, Satoshi ; Watanabe, Kazuo ; Yoshizumi, Masateru ; Izumi, Teruo ; Kiss, Takanobu

Author_Institution :

Dept. of Electr. Eng., Kyushu Univ., Fukuoka, Japan

Volume :

Issue :

fYear :

2015

fDate :

Jun-15

Firstpage :

Lastpage :

Abstract :

We have investigated the current transport properties of batch furnace processed TFA-MOD $mbox{Y}_{math\\rm{x}}mbox{Gd}_{1mbox{-}{math\\rm{x}}}mbox{Ba}_{2}mbox{Cu}_{3}mbox{O} _{math\\rm{y}}$ (YGdBCO) coated conductor (CC) doped with nanoscale $mbox{BaZrO}_{3}$ artificial pinning centers (APCs) . As the comparison with those of previous processed YGdBCO CC, it has been confirmed that the present process is very effective to improve current carrying performance of the CC at not only high-temperature but also low-temperature region, for example, the $I_{math\\rm{c}}$ at 4.2 K and 17 T is 450 A/cm-w, i.e., the engineering $J_{math\\rm{c}}$ is $4.3 \\times 10^{8} mbox{A/m}^{2}$ , which is comparable value to that of $mbox{Nb}_{3}mbox{Sn}$ wire at 4.2 K. In addition, angular dependences of the $I_{math\\rm{c}}$ clearly show the effectiveness of the APCs. Namely, the minimum $I_{math\\rm{c}}$ in the whole angle region at 77 K, 3 T increase from 7 to 35 A/cm-w, and the anisotropy of $I_{math\\rm{c}}$ is reduced. We will also discuss the analytical expression of in-field current transport property based on the percolation transition model and the scaling law of the flux pinning. By using this analysis, electric field versus current density characteristics in arbitrary conditions of temperature and magnetic field can be described, - nd also, the statistical distribution of $J_{math\\rm c}$ can be estimated. These results are important not only for the design of superconducting devices using CCs but also for understanding the pinning properties.

Keywords :

barium compounds; critical current density (superconductivity); flux pinning; gadolinium compounds; high-temperature superconductors; percolation; statistical distributions; yttrium compounds; TFA-MOD processed long-length coated conductor; Y_xGd_1-xBa₂Cu₃O_y:BaZrO₃; analytical expression; angular dependences; arbitrary conditions; batch furnace processed TFA-MOD YGdBCO coated conductor; current carrying performance; electric field-current density characteristics; flux pinning; high-temperature region; in-field current transport property; low-temperature region; magnetic field; nanoscale artificial pinning centers; percolation transition model; scaling law; statistical distribution; superconducting device design; temperature 77 K; Conductors; Furnaces; High-temperature superconductors; Integrated circuits; Magnetic fields; Temperature; Temperature measurement; Artificial pinning centers; TFA-MOD process; artificial pinning centers; coated conductor; critical current; high-temperature superconductor;

fLanguage :

English

Journal_Title :

Applied Superconductivity, IEEE Transactions on

Publisher :

ieee

ISSN :

1051-8223

Type :

jour

DOI :

10.1109/TASC.2014.2387054

Filename :

7000525

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=112074