1989
DOI: 10.1063/1.102387
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Anisotropic critical currents in Ba2YCu3O7 analyzed using an extended Bean model

Abstract: We have extended Bean’s critical state model to explicitly include anisotropic critical currents. Measurements at 30 K of the critical currents parallel to the Cu-O planes but with vortex motion either parallel or across twin boundaries show twin boundaries are probably not an important cause of vortex pinning. In the critical state, current flow perpendicular to the Cu-O planes is about 30 times smaller than flow parallel to these planes.

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Cited by 802 publications
(279 citation statements)
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“…3 (b)). Such a configuration looks similar, but evidently is of quite a different nature, as that described in high-To single crystals which have anisotropic jc values in the plane parallel to the c-axis [20]. The anisotropy induced by Bx is more pronounced at higher temperatures as follows from the temperature dependence of the length b defined in the inset of Fig.…”
Section: Resultsmentioning
confidence: 56%
“…3 (b)). Such a configuration looks similar, but evidently is of quite a different nature, as that described in high-To single crystals which have anisotropic jc values in the plane parallel to the c-axis [20]. The anisotropy induced by Bx is more pronounced at higher temperatures as follows from the temperature dependence of the length b defined in the inset of Fig.…”
Section: Resultsmentioning
confidence: 56%
“…Importantly, the MHL of the intercalated crystal is much larger than that of parent one, implying that the pinning force is greatly enhanced in the intercalated sample. According to the Bean model [22,23], the critical current density can be determined from the MHLs. For a rectangularly-shaped crystal with dimension c < a < b, when H c, the in-plane critical current density J ab c (µ 0 H) is given by…”
Section: Resultsmentioning
confidence: 99%
“…The semilog plot in Figure 3 compares Jc at 20 K versus magnetic field applied normal to the T1-2212 film surface for an as-grown film and films irradiated with 30,60 and 88 MeV Au ions. Jc was extracted from the hysteresis data using the Bean critical state model and the dimensions of the entire sample with the appropriate geometric correction [25].…”
Section: Resultsmentioning
confidence: 99%