A central goal in quantum optics and quantum information science is the development of
quantum networks to generate entanglement between distributed quantum memories …

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 …

Optically addressable spin defects in silicon carbide (SiC) are an emerging platform for
quantum information processing compatible with nanofabrication processes and device …

Optically addressable solid-state spin defects are promising candidates for storing and
manipulating quantum information using their long coherence ground-state manifold; …

Silicon carbide has recently surged as an alternative material for scalable and integrated
quantum photonics, as it is a host for naturally occurring color centers within its bandgap …

Spins in solids are cornerstone elements of quantum spintronics. Leading contenders such
as defects in diamond,,, or individual phosphorus dopants in silicon have shown spectacular …

The elimination of defects from SiC has facilitated its move to the forefront of the
optoelectronics and power-electronics industries. Nonetheless, because certain SiC defects …

Highly correlated orbitals coupled with phonons in two-dimension are identified for
paramagnetic and optically active boron vacancy in hexagonal boron nitride by first …

The divacancies in SiC are a family of paramagnetic defects that show promise for quantum
communication technologies due to their long-lived electron spin coherence and their …

This paper summarizes key findings in single-photon generation from deep level defects in
silicon carbide (SiC) and highlights the significance of these individually addressable …