Identification of stacking faults with flux pinning in powder melting processed YBa2Cu3Oy

P. X. Zhang; L. Zhou; J. C. Vallier; O. Laborde; A. Sulpice; J. L. Tholence; P. Monceau; G. Martinez

doi:10.1002/pssa.2211490217

Identification of stacking faults with flux pinning in powder melting processed YBa₂Cu₃O_y

P. X. Zhang, L. Zhou, J. C. Vallier, O. Laborde, A. Sulpice, J. L. Tholence, P. Monceau, G. Martinez

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

1 Scopus citations

Abstract

Highly textured YBCO samples with different densities of stacking faults are prepared by a powder melting process (PMP). Microstructural examination using transmission electron microscopy (TEM) is conducted on the samples. The dc transport critical currents at 77 K in applied magnetic fields up to 22 T and magnetization hysteresis loops at temperatures, between 60 and 90 K in magnetic fields up to 7 T are measured with a SQUID magnetometer. The irreversibility lines are obtained from measurements of magnetoresistance. The results indicate that the stacking faults strongly influence the flux pinning behavior of the melt processed YBCO superconductors in magnetic fields up to 22 T.

Original language	English
Pages (from-to)	669-676
Number of pages	8
Journal	Physica Status Solidi (A) Applied Research
Volume	149
Issue number	2
DOIs	https://doi.org/10.1002/pssa.2211490217
State	Published - 16 Jun 1995
Externally published	Yes

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title = "Identification of stacking faults with flux pinning in powder melting processed YBa2Cu3Oy",

abstract = "Highly textured YBCO samples with different densities of stacking faults are prepared by a powder melting process (PMP). Microstructural examination using transmission electron microscopy (TEM) is conducted on the samples. The dc transport critical currents at 77 K in applied magnetic fields up to 22 T and magnetization hysteresis loops at temperatures, between 60 and 90 K in magnetic fields up to 7 T are measured with a SQUID magnetometer. The irreversibility lines are obtained from measurements of magnetoresistance. The results indicate that the stacking faults strongly influence the flux pinning behavior of the melt processed YBCO superconductors in magnetic fields up to 22 T.",

author = "Zhang, {P. X.} and L. Zhou and Vallier, {J. C.} and O. Laborde and A. Sulpice and Tholence, {J. L.} and P. Monceau and G. Martinez",

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doi = "10.1002/pssa.2211490217",

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T1 - Identification of stacking faults with flux pinning in powder melting processed YBa2Cu3Oy

AU - Zhang, P. X.

AU - Zhou, L.

AU - Vallier, J. C.

AU - Laborde, O.

AU - Sulpice, A.

AU - Tholence, J. L.

AU - Monceau, P.

AU - Martinez, G.

PY - 1995/6/16

Y1 - 1995/6/16

N2 - Highly textured YBCO samples with different densities of stacking faults are prepared by a powder melting process (PMP). Microstructural examination using transmission electron microscopy (TEM) is conducted on the samples. The dc transport critical currents at 77 K in applied magnetic fields up to 22 T and magnetization hysteresis loops at temperatures, between 60 and 90 K in magnetic fields up to 7 T are measured with a SQUID magnetometer. The irreversibility lines are obtained from measurements of magnetoresistance. The results indicate that the stacking faults strongly influence the flux pinning behavior of the melt processed YBCO superconductors in magnetic fields up to 22 T.

AB - Highly textured YBCO samples with different densities of stacking faults are prepared by a powder melting process (PMP). Microstructural examination using transmission electron microscopy (TEM) is conducted on the samples. The dc transport critical currents at 77 K in applied magnetic fields up to 22 T and magnetization hysteresis loops at temperatures, between 60 and 90 K in magnetic fields up to 7 T are measured with a SQUID magnetometer. The irreversibility lines are obtained from measurements of magnetoresistance. The results indicate that the stacking faults strongly influence the flux pinning behavior of the melt processed YBCO superconductors in magnetic fields up to 22 T.

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Identification of stacking faults with flux pinning in powder melting processed YBa₂Cu₃O_y

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