Ferromagnetic Josephson junctions with steplike interface transparency

Abstract

Within the framework of the quasiclassical Usadel equations we study the Josephson effect in superconductor-insulator-ferromagnet-superconductor SIFS and SIFNS N is a normal metal structures with a steplike transparency of the FS or NS interface. At certain parameters the steplike transparency leads to the formation of a region, where the critical current-density distribution JC y along the junction exhibits a damped oscillation with a sign change. This results in the formation of a 0- nanojunction with the characteristic length of 0 and regions of the order of the coherence length F for SIFS and N for SIFNS junctions, respectively. Using several transparency steps one can create an array of nanojunctions. Such structures exhibit an unusual behavior in an external magnetic field H. The total critical current grows with increasing H up to a certain value, which depends on the size of a single nanojunction, and has multiperiodic oscillations in the case of an array.