Stacked Josephson Junctions in view of macroscopic quantum Experiments

We describe a novel fabrication process for Nb/AlOx/Nb-Al/AlOx/Nb stacked Josephson junctions, which we propose as 3-terminal elements to control the quantum behaviour of Josephson complex systems. A bias current can be independently injected in the “top” junction, providing a fine control of the critical current of the “bottom” junction. The reported characterization of the device refers to data in the classical limit including measurements of the switching dynamics between metastable states of the system at different temperatures and bias conditions. At low temperature the effective dissipation of the bottom junction remains substantially unchanged when different injection currents flow in the top junction. These results are interesting to project new configurations of macroscopic quantum experiments.