We are delighted to welcome Master’s level students to learn about superconducting quantum bits as part of a completely new lab work, developed in collaboration with Marcelo Goffmann (CEA Saclay …

We demonstrate an efficient and continuous microwave photon-to-electron converter with large quantum efficiency (83%) and low dark current. These unique properties are enabled by the use of a high kinetic …

In microwave quantum optics, dissipation usually corresponds to quantum jumps, where photons are lost one by one. Here we demonstrate a new approach to dissipation engineering. By coupling a high …

Rectification of an optical signal using an all-metallic electronic device is of fundamental and technological importance for nano-optics. Researchers probed experimentally the microscopic mechanism at the origin of the optical …

Determining the intrinsic lifetime of states inside the superconducting gap generated by magnetic impurities (YSR states) is crucial for a better understanding of their properties and applications in quantum engineering. …

A team of researchers from the Laboratoire de Physique des Solides (LPS) has demonstrated that in all-metallic Josephson field effect transistors, the statistics of electron flow due to the gate …

We study electronic transport in quantum matter systems and especially the dynamics of such systems. You will find here the projects we are currently working on. If you are interested …

February 2023 Congratulations to Pierre Février, Phd student in our group for his publication in Communications Physics about the Role of optical rectification in photon-assisted tunneling current. « Emission of light …