Spins of impurities in solids provide a unique architecture to realize quantum technologies.
A quantum register of electron and nearby nuclear spins in the lattice encompasses high …

Diamond photonics is an ever-growing field of research driven by the prospects of
harnessing diamond and its colour centres as suitable hardware for solid-state quantum …

With the ability to transfer and process quantum information, large-scale quantum networks
will enable a suite of fundamentally new applications, from quantum communications to …

The negatively charged tin-vacancy (SnV-) center in diamond is a promising solid-state qubit
for applications in quantum networking due to its high quantum efficiency, strong zero …

Quantum technology has grown out of quantum information theory and now provides a
valuable tool that researchers from numerous fields can add to their toolbox of research …

Robust spin-photon interfaces in solids are essential components in quantum networking
and sensing technologies. Ideally, these interfaces combine a long-lived spin memory …

Our world, of course, changed in many other ways as well since the publication of the first
edition. The global pandemic impacted all areas of society and will probably transform how …

The negatively charged silicon-vacancy (SiV-) color center in diamond has recently
emerged as a promising system for quantum photonics. Its symmetry-protected optical …

Photon-mediated interactions between quantum systems are essential for realizing quantum
networks and scalable quantum information processing. We demonstrate such interactions …

Quantum networks require functional nodes consisting of stationary registers with the
capability of high-fidelity quantum processing and storage, which efficiently interface with …