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Current density and magnetic field distribution in hard thin film superconductors

✍ Scribed by H. Theuss; A. Forkl; H. Kronmüller

Publisher
Elsevier Science
Year
1992
Tongue
English
Weight
795 KB
Volume
190
Category
Article
ISSN
0921-4534

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✦ Synopsis

In thin film superconductors with magnetic fields applied perpendicular to the film plane, demagnetization effects lead to strong deviations of the flux density distribution B(r) from the predictions of the conventional critical state model. In particular if the magnetization M is taken as a probe for the critical current densityjc of a thin film, the radial stray field component Br parallel to the film plane has to be taken into consideration. Especially in thin circular films with thicknesses lower than the London penetration depth, 2, the circular critical current density, j¢= 1/lao(OB,/Oz-OB=/Or), is determined by the gradient OBJOz rather than by OB:/Or.

Using B:( r)-data, measured by means of the magneto-optical Faraday effect on c-axis oriented YBazCu3Ov_,rfilms, we perform a selfconsistent calculation of the radial component B~(r), of the magnetic induction as well as of the current density distribution, j¢(r), and the volume pinning force, fp.

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