Pinning of planar vortices and magnetic field penetration in a three-dimensional Josephson medium |
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Authors: | M. A. Zelikman |
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Affiliation: | (1) St. Petersburg State Technical University, 195251 St. Petersburg, Russia |
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Abstract: | The behavior of planar (laminar) vortices in a three-dimensional, ordered Josephson medium as a function of the parameter I, which is proportional to the critical junction current and the cell size, is investigated with allowance for pinning due to the cellular structure of the medium. The minimum possible distances between two isolated vortices are calculated. A system of vortices formed in a sample in a monotonically increasing external magnetic field is analyzed. The minimum distance from the outermost vortex to the nearest neighbor is proportional to I −1.1. For I⩽1.3 each vortex contains a single flux quantum Φ0, and the distance between them does not decrease in closer proximity to the boundary but remains approximately constant, implying that the magnetic field does not depend on the coordinate in the region penetrated by vortices. These facts contradict the generally accepted Bean model. The sample magnetization curve has a form typical of type II superconductors. Allowance for pinning raises the critical field H c and induces a sudden jump in the curve at H=H c. Zh. Tekh. Fiz. 67, 38–46 (September 1997) |
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