Quasiclassical theory of magnetoelectric effects in superconducting heterostructures in the presence of spin-orbit coupling

The quasiclassical theory in terms of equations for the Green's functions (Eilenberger equations) is generalized in order to allow for quantitative description of the magnetoelectric effects and proximity-induced triplet correlations in the presence of spin-orbit coupling in hybrid superconduct...

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Veröffentlicht in:Physical review. B 2017-05, Vol.95 (18), p.184518, Article 184518
Hauptverfasser: Bobkova, I. V., Bobkov, A. M.
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Sprache:eng
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Zusammenfassung:The quasiclassical theory in terms of equations for the Green's functions (Eilenberger equations) is generalized in order to allow for quantitative description of the magnetoelectric effects and proximity-induced triplet correlations in the presence of spin-orbit coupling in hybrid superconducting systems. The formalism is valid under the condition that the spin-orbit coupling is weak with respect to the Fermi energy, but exceeds the superconducting energy scale considerably. On the basis of the derived formalism it is shown that the triplet correlations in the spin-orbit coupled normal metal can be induced by proximity to a singlet superconductor without any exchange or external magnetic field. They contain an odd-frequency even-momentum component, which is stable against disorder. The value of the proximity-induced triplet correlations is on the order of Δso/ɛF, which is absent in the framework of the standard quasiclassical approximation, but can be described by our theory. The spin polarization, induced by the Josephson current flowing through the superconductor/Rashba metal/superconductor junction, is also calculated.
ISSN:2469-9950
2469-9969
DOI:10.1103/PhysRevB.95.184518