Artificial flux pinning centers in large, single-grain (RE)-Ba-Cu-O superconductors

Babu, N. Hari; Reddy, E. Sudhakar; Cardwell, D. A.; Campbell, A.M.; Tarrant, C. D.; Schneider, K. R.

doi:10.1063/1.1631738

Cited by 102 publications

(43 citation statements)

References 15 publications

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“…The preferential orientation of Y-211 in the Y-123 matrix was discussed by Endo et al For melt-textured Y-123 bulks, it is considered that properly distributed flux pinning sites are more effective in pinning enhancement than randomly distributed ones. Such an effect was demonstrated by Cardwell et al, who distributed small Y 2 Ba 4 MCuO y particles in a Y-123 matrix. , In growing multilayers composed of alternating ultrathin Y-123 and Y-211 films by means of pulse laser deposition (PLD), a growth orientation effect of nanometer-sized Y-211 particles within the Y-123 phase was revealed: the b -axis of the Y-211 phase was parallel to the c -axis of the Y-123 phase. The small lattice mismatch between the two phases might cause the epitaxial growth orientation in the matrix.…”

Section: Introductionmentioning

confidence: 93%

“…Since the discovery of high-temperature superconductivity in RE−Ba−Cu−O (RE = rare-earth element), much effort has been devoted to improvement of fundamental properties of these compounds to enable their practical applications. − During RE−Ba−Cu−O growth, artificial pinning centers are introduced into the superconducting matrix to increase the critical current density ( J c ) in low, intermediate, and high magnetic fields . Several types of effective dopands ((RE) 2 BaCuO 5 (RE-211), BaZrO 3 , (RE) 2 Ba 4 CuMO y , etc.) have been introduced.…”

Section: Introductionmentioning

confidence: 99%

“…It has been experimentally confirmed that the size, distribution, and alignment of the dopand particles in the (RE)Ba 2 Cu 3 O y (RE-123) matrix significantly influenced the pinning effect. Magnetic performance of high- T c materials can be in particular enhanced by using nanometer-scale dopand particles or/and by refining their distribution within the material. − However, not only does the particle size matter, but also the alignment of the pinning sites should be regarded. The preferential orientation of Y-211 in the Y-123 matrix was discussed by Endo et al For melt-textured Y-123 bulks, it is considered that properly distributed flux pinning sites are more effective in pinning enhancement than randomly distributed ones.…”

Section: Introductionmentioning

confidence: 99%

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Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Sun

Huang

Cheng

et al. 2008

Crystal Growth & Design

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Formation of various Sm-Ba-Cu-O phases grown under thermal equilibrium on (010) surfaces of Sm 2 BaCuO 5 single-crystalline whiskers was observed in situ by means of a high-temperature optical microscope. At 1100°C a needle-like phase, identified by X-ray diffraction and energy-dispersive spectroscopy analyses as Sm 2 Ba 4 Cu 2 O y , grew epitaxially on the whisker (010) surface. After being cooled to 1050°C (close to the peritectic temperature, T p ), the SmBa 2 Cu 3 O y (Sm-123) phase nucleated and grew epitaxially in two different orientations: [100] Sm-123 //[001] Sm-123 //[001] Sm-211 . During a slow reheating, the former type of Sm-123 grains preferentially decomposed, indicating its lower thermal stability with respect to the latter type of grains.

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Section: Introductionmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Sun

Huang

Cheng

et al. 2008

Crystal Growth & Design

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“…there can be a surplus of individual elements in the form of metal oxides or compounds which also belong to the individual REBCO system [ 46 , 47 , 48 , 49 , 50 , 51 , 52 ]. Additional phases, designed to serve as artificial pinning centers should be stable in the deposition conditions and chemically inert in relation to other present compounds in order to improve the properties of the final coated superconducting tapes [ 53 ]. There are several techniques for REBCO thin-film synthesis.…”

Section: Introductionmentioning

confidence: 99%

Nanosized Pinning Centers in the Rare Earth-Barium-Copper-Oxide Thin-Film Superconductors

et al. 2020

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Since the discovery of high-temperature superconductivity, significant progress in the fabrication of REBCO-based (Rare Earth Barium Copper mixed Oxides) thin-films superconductors has been achieved. In our review, we described the approaches and possibilities of the improvement of superconducting properties by the introduction of nanosized pinning centers. We focused on the synthesis and viability of the material for artificial pinning centers and methods used for the introduction of the pinning centers into superconducting REBCO-based thin-films. This article summarizes available materials and procedures regardless of the financial cost of the individual method. According to available literature, the most significant superconducting REBCO tapes can be obtained when a combination of 1D and 0D nanoparticles are used for nanoscale pinning.

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“…has been identified. Nanopowders of this new phase have been prepared successfully, enabling the growth of melt‐textured bulk samples with embedded nanoparticles of these phases 10,11 . There are two basic methods by which such nanoparticles can be generated in melt‐textured YBCO: (i) by adding the respective oxides (e.g., Nb 2 O 5 ) or (ii) by adding previously prepared, fully reacted nanoparticles to the precursor powder.…”

Section: Introductionmentioning

confidence: 99%

Crystallographic Orientation of Y₂Ba₄CuMO_x (M=Nb, Zr, Ag) Nanoparticles Embedded in Bulk, Melt‐Textured YBCO Studied by EBSD

Koblischka-Veneva

Mücklich

Koblischka³

et al. 2007

Journal of the American Ceramic Society

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Crystallographic orientations of Y–Ba–Cu–O (YBCO) and embedded Y2Ba4CuMOx (M=Nb, Zr, Ag) nanoparticles in bulk, melt‐textured YBCO samples are studied by electron backscatter diffraction. Y2BaCuO5 particles exhibit no preferred orientation but have a strong negative influence on the matrix orientation. In contrast, the nanoparticles do not disturb the texture of the YBCO matrix. Depending on the preparation route, a different particle orientation with respect to the matrix is obtained. Untextured nanoparticles are formed by solid‐state reaction during the melt process by adding oxides (Nb2O5 or Y2O3) to the precursor powder. Preformed Y2Ba4CuMOx particles added to the precursor in the form of prereacted nanopowder exhibit a dominant single orientation related to the surrounding YBCO matrix.

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Artificial flux pinning centers in large, single-grain (RE)-Ba-Cu-O superconductors

Cited by 102 publications

References 15 publications

Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Nanosized Pinning Centers in the Rare Earth-Barium-Copper-Oxide Thin-Film Superconductors

Crystallographic Orientation of Y₂Ba₄CuMO_x (M=Nb, Zr, Ag) Nanoparticles Embedded in Bulk, Melt‐Textured YBCO Studied by EBSD

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Artificial flux pinning centers in large, single-grain (RE)-Ba-Cu-O superconductors

Cited by 102 publications

References 15 publications

Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Real-Time Observation of Growth and Orientation of Sm−Ba−Cu−O Phases on a Sm-211 Whisker Substrate by High-Temperature Optical Microscopy

Nanosized Pinning Centers in the Rare Earth-Barium-Copper-Oxide Thin-Film Superconductors

Crystallographic Orientation of Y2Ba4CuMOx (M=Nb, Zr, Ag) Nanoparticles Embedded in Bulk, Melt‐Textured YBCO Studied by EBSD

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Crystallographic Orientation of Y₂Ba₄CuMO_x (M=Nb, Zr, Ag) Nanoparticles Embedded in Bulk, Melt‐Textured YBCO Studied by EBSD