This article is cited in 10 papers

CONDENSED MATTER

Superconducting decay length in a ferromagnetic metal

D. Yu. Gusakova^a, A. A. Golubov^b, M. Yu. Kupriyanov<sup>a

a</sup> Nuclear Physics Institute, Moscow State University
^b Faculty of Science and Technology, University of Twente, 7500 AE Enschede, The Netherlands

Abstract: The complex decay length $\xi$ characterizing penetration of superconducting correlations into a ferromagnet due to the proximity effect is studied theoretically in the frame of the linearized Eilenberger equations. The real part $\xi_1$ and imaginary part $\xi_2$ of the decay length are calculated as functions of exchange energy and the rates of ordinary, spin flip and spin orbit electronic scattering in a ferromagnet. The lengths $\xi_{1,2}$ determine the spatial scales of, respectively, decay and oscillation of a critical current in SFS Josephson junctions in the limit of large distance between superconducting electrodes. The developed theory provides the criteria of applicability of the expressions for $\xi_1$ and $\xi_2$ in the dirty and the clean limits which are commonly used in the analysis of SF hybrid structures.

PACS: 74.50.+r, 74.80.Dm, 75.30.Et

Received: 06.04.2006

Language: English

 English version: Journal of Experimental and Theoretical Physics Letters, 2006, 83:9, 418–422

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