Publications
Quantum Repeaters and Quantum Networks
Quantum Repeaters and Quantum Networks
Tin-Vacancy Centers with high Application Potential as coherent Spin-Photon Interfaces
Demonstration of a coherent Spin-Photon System with promising Properties for Quantum Network Nodes – Group-IV color centers are defects in the lattice structure of diamond that exhibit stable optical and
Topological Effects transferred to Light-Matter Systems for the first Time
Successful Implementation of Quantum Hall and Spin Hall Effects in a hybrid Light-Matter System – Researchers from the Cluster of Excellence ctd.qmat in Würzburg and Dresden have, for the first
Visual Monitoring of Nuclear Spins in Molecules opens up new Possibilities for Quantum Technologies
Research Team demonstrates full Optical Control of Nuclear Spins in a Molecular System – Nuclear Magnetic Resonance (NMR) is an established method for investigating materials and molecules, ranging from chemical
New Paper on time-bin-encoded Quantum Key Distribution published
Demonstration of the first time-bin-encoded QKD using a Quantum Dot Single-Photon Source – Quantum Key Distribution (QKD) stands as the most mature branch of quantum cryptography, offering truly unbreakable security
Researchers from QR.N develop novel Single-Photon Source
Source generates Photons on Demand in the Telecom C-band with Record Quality – In Quantum Technologies, high-quality interference between photons is essential. Photons can only interfere perfectly if all their
New Paper on Atom-Photon Entanglement for Quantum Networking published
Experimental Progress for reliable Quantum Networks – Over the past years, Quantum Networks have emerged as an important field of research. In addition to enhancing the security of critical infrastructures,
