Diamond integrated quantum nanophotonics: spins, photons and phonons
Integrated photonic devices in diamond have tremendous potential for many quantum
applications, including long-distance quantum communication, quantum information …
applications, including long-distance quantum communication, quantum information …
Nanoelectromechanical control of spin–photon interfaces in a hybrid quantum system on chip
Color centers (CCs) in nanostructured diamond are promising for optically linked quantum
technologies. Scaling to useful applications motivates architectures meeting the following …
technologies. Scaling to useful applications motivates architectures meeting the following …
Diamond optomechanical cavity with a color center for coherent microwave-to-optical quantum interfaces
Quantum transduction between microwave and optical photons plays a key role in quantum
communication among remote qubits. Although the quantum transduction schemes …
communication among remote qubits. Although the quantum transduction schemes …
Piezoelectric nanocavity interface for strong coupling between a superconducting circuit, phonon, and spin
We introduce a hybrid tripartite quantum system for strong coupling between a
semiconductor spin, a mechanical phonon, and a microwave excitation of a …
semiconductor spin, a mechanical phonon, and a microwave excitation of a …
Remote entanglement of superconducting qubits via solid-state spin quantum memories
H Kurokawa, M Yamamoto, Y Sekiguchi, H Kosaka - Physical Review Applied, 2022 - APS
Quantum communication between remote superconducting systems is being studied
intensively to increase the number of integrated superconducting qubits and to realize a …
intensively to increase the number of integrated superconducting qubits and to realize a …
Piezoelectrically driven diamond phononic nanocavity by phonon-matching scheme for quantum applications
Efficiently exciting and controlling phonons in diamond nanoresonators represents a
fundamental challenge for quantum applications. Here, we theoretically demonstrate the …
fundamental challenge for quantum applications. Here, we theoretically demonstrate the …
Spin-acoustic control of silicon vacancies in 4H silicon carbide
Bulk acoustic resonators can be fabricated on the same substrate as other components and
can operate at various frequencies with high quality factors. Mechanical dynamic metrology …
can operate at various frequencies with high quality factors. Mechanical dynamic metrology …
Minimally diffracting quartz for ultra-low temperature surface acoustic wave resonators
We simulate and experimentally demonstrate the existence of an orientation of quartz, which
minimizes diffraction losses in surface acoustic wave (SAW) resonators at ultra-low …
minimizes diffraction losses in surface acoustic wave (SAW) resonators at ultra-low …
Spin-phonon-photon strong coupling in a piezomechanical nanocavity
We introduce a hybrid tripartite quantum system for strong coupling between a
semiconductor spin, a mechanical phonon, and a microwave photon. Consisting of a …
semiconductor spin, a mechanical phonon, and a microwave photon. Consisting of a …
Diamond optomechanical cavity with a color center for microwave-to-optical quantum interfaces
Quantum transduction between microwave and optical photons plays a key role in quantum
communication among remote qubits. Although the quantum transduction schemes …
communication among remote qubits. Although the quantum transduction schemes …