Within the Quantum Devices Laboratory, you will work in an environment ranging from fundamental physics to new nano-electronics technologies, with a team that collaborates closely with quantum computing startups and physicists from CEA-IRIG and Institut Néel.
The operating conditions of qubits (cryogenic temperatures <= 1K, GHz frequencies , high signal density) require the development of suitable components and technological bricks. In particular, the passive radiofrequency components developed around the CEA-LETI superconducting interposer technology show extremely interesting electrical properties up to several GHz. These elements, including inductors available over wide value ranges, have already made it possible to establish the first proofs of concept for very compact and low-loss RF filters. The integration of superconducting materials now makes it possible to envisage the creation of new high-performance filters adapted to signal management in cryogenic environments.
You will be required to develop your expertise in the physics of materials and superconducting components. You will study the different superconducting filters that exist in the scientific literature. Using the models developed in the laboratory and the results of the RF measurements in which you will participate, and relying on 3D RF electromagnetic simulation, you will contribute to the design of different RF filters and functions that meet the needs of cryogenic applications.