The uncontrolled interaction of a quantum system with its environment is detrimental for
quantum coherence. For quantum bits in the solid state, decoherence from thermal …

Phonons are considered to be universal quantum transducers due to their ability to couple to
a wide variety of quantum systems. Among these systems, solid-state point defect spins are …

Inhomogeneous dephasing from uncontrolled environmental noise can limit the coherence
of a quantum sensor or qubit. For solid-state spin qubits such as the nitrogen-vacancy (NV) …

Color centers (CCs) in nanostructured diamond are promising for optically linked quantum
technologies. Scaling to useful applications motivates architectures meeting the following …

Single-crystal diamond cavity optomechanical devices are a promising example of a hybrid
quantum system: by coupling mechanical resonances to both light and electron spins, they …

There has been rapidly growing interest in hybrid quantum devices involving a solid-state
spin and a macroscopic mechanical oscillator. Such hybrid devices create exciting …

Quantum networks enable a broad range of practical and fundamental applications
spanning from distributed quantum computing to sensing and metrology. A cornerstone of …

We propose and analyze a novel mechanism for long-range spin-spin interactions in
diamond<? format?> nanostructures. The interactions between electronic spins, associated …

Multi-qubit systems are crucial for the advancement and application of quantum science.
Such systems require maintaining long coherence times while increasing the number of …

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 …