H. Bratsberg scite author profile

Magneto-optic imaging was used for a detailed study of the flux and current distribution of a long thin strip of YBa 2 Cu 3 O 7Ϫ␦ placed in a perpendicular external magnetic field. The inverse magnetic problem, i.e., that of deriving from a field map the underlying current distribution, is formulated and solved for the strip geometry. Applying the inversion to the magneto-optically found field map we find on a model-independent basis the current distribution across the strip to be in remarkable agreement with the profile predicted by the Bean model. The paper also presents results on the behavior of the Bi-doped YIG film with in-plane anisotropy which we use as field indicator, explaining why previous measurements of flux density profiles have displayed surprisingly large deviations from the expected behavior. ͓S0163-1829͑96͒02046-2͔

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Magnetic phase diagram of gadolinium gallium garnet

Hov

Bratsberg

Skjeltorp

1980

Journal of Magnetism and Magnetic Materials

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Critical-state model with a secondary high-field peak inJc(B)

et al. 1997

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Magneto-optical study of magnetic-flux penetration into a current-carrying high-temperature-superconductor strip

et al. 1999

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Magnetic flux distribution across a high-temperature superconductor strip is measured using magneto-optical imaging at 15 K. Both the current-carrying state and the remanent state after transport current are studied up to the currents 0.97Ic where Ic is the critical current. To avoid overheating of the sample current pulses with duration 50 ms were employed. The results are compared with predictions of the Bean model for the thin strip geometry. In the current-carrying state, reasonable agreement is found. However, there is a systematic deviation -the flux penetration is deeper than theoretically predicted. A much better agreement is achieved by accounting for flux creep as shown by our computer simulations. In the remanent state, the Bean model fails to explain the experimental results. The results for the currents I ≤ 0.7Ic can be understood within the framework of our flux creep simulations. However, after the currents I > 0.7Ic the total flux trapped in a strip is substantially less than predicted by the simulations. Furthermore, it decreases with increasing current. Excessive dissipation of power in the annihilation zone formed in the remanent state is believed to be the source of this unexpected behavior.

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Logarithmic relaxation in the levitation force in a magnet-high T c superconductor system

Riise

Johansen

Bratsberg

et al. 1992

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The dynamic response of the levitation force between a permanent magnet and a bulk YBCO superconductor when subjected to a sudden motion-induced step in the magnetic field has been measured. It is found that the levitation force relaxes logarithmically with time. Assuming that force and magnetization behave similarly, the rate of decay can be interpreted in terms of a thermally activated flux creep with a depinning activation energy of U0=0.20 eV. A replot of previously published results for melt-quenched YBCO also demonstrates that also in this material the force relaxation is characterized by a logarithmic decay.

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H. Bratsberg

Direct observation of the current distribution in thin superconducting strips using magneto-optic imaging

Magnetic phase diagram of gadolinium gallium garnet

Critical-state model with a secondary high-field peak inJc(B)

Magneto-optical study of magnetic-flux penetration into a current-carrying high-temperature-superconductor strip

Logarithmic relaxation in the levitation force in a magnet-high T c superconductor system

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