Distortions to the penetration depth and coherence length of superconductor/normal-metal superlattices

Abstract: Superconducting (S ) thin film superlattices composed of Nb and a normal metal spacer (N ) have been extensively utilized in Josephson junctions given their favorable surface roughness compared to Nb thin films of comparable thickness. In this work, we characterize the London penetration depth and Ginzburg-Landau coherence length of S /N superlattices using polarized neutron reflectometry and electrical transport. Despite the normal metal spacer layer being significantly thinner than the coherence length, we f… Show more

“…where w, λ L , d S , and d are the width of the junction, the London penetration depth, the thickness of the superconducting electrode, and the total thickness of all the normal metal layers and F layers in the junction, respectively. The bottom electrode is a Nb/Au multilayer (λ bottom L = 190 nm [51]) and the top electrode is single layer Nb (λ top L = 150 nm [61]). H app is the applied field and H shift is the amount I c0 is shifted from H = 0.…”

Pt and CoB trilayer Josephson $π$ junctions with perpendicular magnetic anisotropy

“…where w, λ L , d S , and d are the width of the junction, the London penetration depth, the thickness of the superconducting electrode, and the total thickness of all the normal metal layers and F layers in the junction, respectively. The bottom electrode is a Nb/Au multilayer (λ bottom L = 190 nm [51]) and the top electrode is single layer Nb (λ top L = 150 nm [61]). H app is the applied field and H shift is the amount I c0 is shifted from H = 0.…”

Pt and CoB trilayer Josephson $π$ junctions with perpendicular magnetic anisotropy