Research

Our goal is to build a community of researchers who are passionate about working in quantum science and technologies. The team works on different research projects, one of them includes simulation and design of superconducting quantum circuits, delicate little devices that operate at temperatures so cold, even penguins would complain. These circuits form the cornerstone of quantum technologies, from qubits to parametric amplifiers.

We also explore hybrid quantum systems, like bilayer graphene quantum dots coupled to superconductors and optomechanical systems coupled to microwave resonators to answer some fundamental physics questions and test long-lived quantum memories.

And because even quantum systems make mistakes, we dive into quantum error correction algorithms. Think of it as teaching qubits how to "undo" their clumsiness, a bit like giving them an infinite supply of Ctrl+Z.