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 …

A contemporary challenge for the scalability of quantum networks is developing quantum
nodes with simultaneous high photonic efficiency and long-lived qubits. Here we present a …

Single-photon sources are important for integrated photonics and quantum technologies,
and can be used in quantum key distribution, quantum computing, and sensing. Color …

A high-spin nucleus coupled to a color center can act as a long-lived memory qudit in a spin-
photon interface. The germanium vacancy (GeV) in diamond has attracted recent attention …

Diamond has emerged as a highly promising platform for quantum network applications.
Color centers in diamond fulfill the fundamental requirements for quantum nodes: they …

Group-IV color centers in diamond (SiV–, GeV–, and SnV–) have emerged as leading solid-
state spin-photon interfaces for quantum information processing applications. However …

A central challenge in quantum networking is transferring quantum states between different
physical modalities, such as between flying photonic qubits and stationary quantum …

The static electric dipole–dipole coupling between donor–acceptor pairs (DAPs) in wide-
bandgap semiconductors has recently emerged as a means of realizing a quantum science …

The negatively charged tin-vacancy center in diamond (SnV $^-$) is an emerging platform
for building the next generation of long-distance quantum networks. This is due to the SnV …

We compare the suitability of various magnesium-based liquid metal alloy ion sources
(LMAISs) for scalable focused-ion-beam (FIB) implantation doping of GaN. We consider …