Flux pinning and orientation control of large grain LREBa 2Cu3Oy

M. Muralidhar; N. Sakai; M. Jirsa; M. Murakami; I. Hirabayashi

doi:10.1088/1742-6596/43/1/104

Flux pinning and orientation control of large grain LREBa ₂Cu₃O_y

M. Muralidhar, N. Sakai, M. Jirsa, M. Murakami, I. Hirabayashi

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The ternary high-T_c superconductor (Nd_0.33, Eu _0.39, Gd_0.27)Ba₂Cu₃O_y NEG-123 doped by 5 mol% of the nonsuperconducting secondary phase (Nd _0.33, Eu_0.33, Gd_0.33)₂BaCuO ₅ NEG-211 was prepared by oxygen controlled melt growth (OCMG) process using MgO seeds. Various contents of ZnO up to 0.07 mol% were added. At the ZnO concentration around 0.035 mol%, a substantial reduction of liquid phase loss was observed, accompanied with a perfect facet line up to the bottom of the sample, with c-axis reflection plane. Magnetization measurements showed that at this optimum ZnO addition the superconducting transition temperature was slightly depressed. On the other hand, flux pinning performance around the secondary peak, observed at liquid nitrogen temperature, was continually improved with increasing ZnO content up to 0.035 mol%. It was found that the optimum content of ZnO is crucial for flux pining enhancement and orientation control of MgO seeded melt-textured NEG-123 system.

Original language	English
Article number	104
Pages (from-to)	417-420
Number of pages	4
Journal	Journal of Physics: Conference Series
Volume	43
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/43/1/104
Publication status	Published - 2006 Jun 1

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Physics and Astronomy(all)

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title = "Flux pinning and orientation control of large grain LREBa 2Cu3Oy",

abstract = "The ternary high-Tc superconductor (Nd0.33, Eu 0.39, Gd0.27)Ba2Cu3Oy NEG-123 doped by 5 mol% of the nonsuperconducting secondary phase (Nd 0.33, Eu0.33, Gd0.33)2BaCuO 5 NEG-211 was prepared by oxygen controlled melt growth (OCMG) process using MgO seeds. Various contents of ZnO up to 0.07 mol% were added. At the ZnO concentration around 0.035 mol%, a substantial reduction of liquid phase loss was observed, accompanied with a perfect facet line up to the bottom of the sample, with c-axis reflection plane. Magnetization measurements showed that at this optimum ZnO addition the superconducting transition temperature was slightly depressed. On the other hand, flux pinning performance around the secondary peak, observed at liquid nitrogen temperature, was continually improved with increasing ZnO content up to 0.035 mol%. It was found that the optimum content of ZnO is crucial for flux pining enhancement and orientation control of MgO seeded melt-textured NEG-123 system.",

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AU - Muralidhar, M.

AU - Sakai, N.

AU - Jirsa, M.

AU - Murakami, M.

AU - Hirabayashi, I.

PY - 2006/6/1

Y1 - 2006/6/1

N2 - The ternary high-Tc superconductor (Nd0.33, Eu 0.39, Gd0.27)Ba2Cu3Oy NEG-123 doped by 5 mol% of the nonsuperconducting secondary phase (Nd 0.33, Eu0.33, Gd0.33)2BaCuO 5 NEG-211 was prepared by oxygen controlled melt growth (OCMG) process using MgO seeds. Various contents of ZnO up to 0.07 mol% were added. At the ZnO concentration around 0.035 mol%, a substantial reduction of liquid phase loss was observed, accompanied with a perfect facet line up to the bottom of the sample, with c-axis reflection plane. Magnetization measurements showed that at this optimum ZnO addition the superconducting transition temperature was slightly depressed. On the other hand, flux pinning performance around the secondary peak, observed at liquid nitrogen temperature, was continually improved with increasing ZnO content up to 0.035 mol%. It was found that the optimum content of ZnO is crucial for flux pining enhancement and orientation control of MgO seeded melt-textured NEG-123 system.

AB - The ternary high-Tc superconductor (Nd0.33, Eu 0.39, Gd0.27)Ba2Cu3Oy NEG-123 doped by 5 mol% of the nonsuperconducting secondary phase (Nd 0.33, Eu0.33, Gd0.33)2BaCuO 5 NEG-211 was prepared by oxygen controlled melt growth (OCMG) process using MgO seeds. Various contents of ZnO up to 0.07 mol% were added. At the ZnO concentration around 0.035 mol%, a substantial reduction of liquid phase loss was observed, accompanied with a perfect facet line up to the bottom of the sample, with c-axis reflection plane. Magnetization measurements showed that at this optimum ZnO addition the superconducting transition temperature was slightly depressed. On the other hand, flux pinning performance around the secondary peak, observed at liquid nitrogen temperature, was continually improved with increasing ZnO content up to 0.035 mol%. It was found that the optimum content of ZnO is crucial for flux pining enhancement and orientation control of MgO seeded melt-textured NEG-123 system.

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Flux pinning and orientation control of large grain LREBa ₂Cu₃O_y

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