Peculiarities of superconducting properties of thin superconductor-normal metal bilayer with large ratio of resistivities

Abstract

We demonstrate, both theoretically and experimentally, that thin dirty superconductor-normal metal bilayer with resistivity of normal metal N much smaller than normal-state resistivity of superconductor S has unique superconducting properties. First of all the normal layer provides the dominant contribution to the diamagnetic response of whole bilayer structure in wide temperature interval below the critical temperature due to proximity induced superconductivity. Secondly, the presence of the normal layer may increase the critical current Ic in several times (the effect is not connected with enhanced vortex pinning), provides strong temperature dependence of both Ic and effective magnetic field penetration depth even at temperatures much below the critical one and leads to the diode effect in parallel magnetic field. Besides of general interest we believe that the found results may be useful in construction of different kinds of superconducting detectors.