Spin polarization and orbital effects in superconductor-ferromagnet structures

Abstract

We study theoretically spontaneous currents and magnetic field induced in a superconductor-ferromagnet (S-F) bilayer due to direct and inverse proximity effects. The induced currents are Meissner currents that appear even in the absence of an external magnetic field due to the magnetic moment in the ferromagnet and to the magnetization in the superconductor . The latter is induced by the inverse proximity effect over a distance of the order of the superconducting correlation length S. On the other hand the magnetic induction B, caused by Meissner currents, penetrates the S film over the London length λ S. Even though λ S usually exceeds considerably the correlation length, the amplitude and sign of B at distances much larger than S depends crucially on the strength of the exchange energy in the ferromagnet and on the magnetic moment induced in the in the S layer.