Proximity effect in [Nb(1.5nm)/Fe(x)]$_{10}$/Nb(50nm) superconducting/ferromagnet heterostructures

Structural, magnetic and superconducting properties of [Nb(1.5nm)/Fe(x)]$_{10}$ superlattices deposited on thick Nb(50nm) layer were studied in this work. Our investigation showed that the Nb(50nm) layer growths epitaxially at 800$^\circ$C on Al$_2$O$_3$(1$\bar{1}$02) substrate. Samples grown at this condition posses high residual resistivity ratio of order of 15-20. By using neutron reflectometry we have shown that Fe/Nb superlattices with $x<$ 4 nm form a depth-modulated FeNb alloy with concentration of iron varying between 90\% to 60\%. This alloy has properties of a weak ferromagnet. Proximity of this weak ferromagnetic layer to a thick superconductor leads to the presence of an intermediate phase between normal and superconducting state. This phase is characterized by co-existing domains of superconducting and normal-state phases. By increasing the thickness of Fe layer to $x$ = 4 nm the intermediate phase disappears. We attribute presence of the intermediate state to the proximity induced non-homogeneous superconductivity in periodic Fe/Nb structure.