Magnetic resonance techniques are successfully utilized in a broad range of scientific
disciplines and in various practical applications, with medical magnetic resonance imaging …

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 …

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 …

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 …

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

Single electron spins coupled to multiple nuclear spins provide promising multi-qubit
registers for quantum sensing and quantum networks. The obtainable level of control is …

Discoveries in quantum materials, which are characterized by the strongly quantum-
mechanical nature of electrons and atoms, have revealed exotic properties that arise from …

Nuclear spins in the solid state are both a cause of decoherence and a valuable resource for
spin qubits. In this work, we demonstrate control of isolated 29Si nuclear spins in silicon …

We report optically detected magnetic resonance (ODMR) measurements of an ensemble of
spin-1 negatively charged boron vacancies in hexagonal boron nitride. The …