Bluefors’ Post

Check out this stunning LD installation at the Niels Bohr Institute, University of Copenhagen! These two Gen. 2 LD Systems are now powering research at the Superconducting Quantum Optics Lab, led by Assistant Professor Shingo Kono. As part of the NNF Quantum Computing Programme (NQCP), the team is exploring hybrid quantum platforms based on superconducting circuits, combining the strengths of distinct quantum systems to push scalability and high fidelity in the next generation of quantum computing. Their work focuses on novel quantum protocols and systems, including studies of quantum decoherence mechanisms, development of broadband quantum-limited Josephson parametric amplifiers, and integration of superconducting circuits with mechanical membranes and magnetic crystals—enabling long-lived quantum memories and nonreciprocal quantum devices. By connecting unique functionalities across modules and units, superconducting quantum processors gain new capabilities that enhance speed, fidelity, and scalability, paving the way toward practical fault-tolerant quantum computing. We’re thrilled to see our Gen. 2 LD Systems supporting such groundbreaking research. Wishing the team great success as they explore new frontiers in hybrid quantum platforms! #quantumcomputing #quantumtechnology #cryogenics #CoolForProgress