📝 SummarXiv

Abstract

In this review, we summarize the theoretical foundations underlying a variety of phenomena in superconductor-ferromagnet (SF) hybrid structures, with a focus on recent advances in several key areas. These include: (i) the fundamental understanding of proximity effects in SF-based systems; (ii) spin-valve effects in SF and SFS Josephson junctions; and (iii) the design and realization of superconducting memory elements, particularly in SIsF-type Josephson junctions. We also discuss the experimental progress in fabricating and characterizing spin-valve structures. Our discussion is restricted to junctions incorporating weak, homogeneous metallic ferromagnets with collinear magnetization directions, where the essential physical mechanisms can be analyzed within a relatively tractable theoretical framework.