Superconducting Quantum Circuits
We design, fabricate, and measure superconducting microwave circuits that behave as artificial quantum systems.
The lab is interested in high-coherence devices, nonlinear microwave elements, parametric interactions, and circuit architectures that make quantum states of microwave fields easier to generate, protect, and detect.
Marco Scigliuzzo is Assistant Professor at the University of Sherbrooke, where he holds the Chair in Development of Quantum Technologies. His research explores superconducting quantum circuits, quantum acoustics, circuit optomechanics, and engineered microwave environments for quantum optics.
His work has contributed to the control of photonic and phononic degrees of freedom at the quantum level, high-coherence superconducting devices, quantum acoustics with tunable nonlinearity, and collective quantum motion in mechanical resonator arrays.