• Satrya, C. D.
• Faley, M. I.
• Reith, Pim
• Stolyarov, V. S.
• Dunin-Borkowski, R. E.
• Golubov, Alexander A.
• Folkers, Bart
• Hilgenkamp, Hans

Abstract

<p>We have developed Josephson junctions between the d-wave superconductor YBa₂Cu₃O_7-x (YBCO) and the s-wave Mo_0.6Re_0.4 (MoRe) alloy superconductor (ds-JJs). Such ds Josephson junctions are of interest for superconducting electronics making use of incorporated π-phase shifts. The I(V)-characteristics of the ds-JJs demonstrate a twice larger critical current along the [100] axis of the YBCO film compared to similarly-oriented ds-JJs made with a Nb top electrode. The characteristic voltage I _c R _n of the YBCO-Au-MoRe ds-JJs is 750 μV at 4.2 K. The ds-JJs that are oriented along the [100] or [010] axes of the YBCO film exhibit a 200 times higher critical current than similar ds-JJs oriented along the [110] axis of the same YBCO film. A critical current density J _c = 20 kA cm^-2 at 4.2 K was achieved. Different layouts of π-loops based on the novel ds-JJs were arranged in various mutual coupling configurations. Spontaneous persistent currents in the π-loops were investigated using scanning SQUID microscopy. Magnetic states of the π-loops were manipulated by currents in integrated bias lines. Higher flux states up to ±2.5Φ₀ were induced and stabilized in the π-loops. Crossover temperatures between thermally activated and quantum tunneling switching processes in the ds-JJs were estimated. The demonstrated ability to stabilise and manipulate states of π-loops paves the way towards new computing concepts such as quantum annealing computing.</p>

Topics

• density
• impedance spectroscopy
• phase
• annealing
• current density
• microscopy