The silicon vacancy centers in SiC: determination of intrinsic spin dynamics for integrated quantum photonics
The negatively charged silicon vacancy center (V Si−) in silicon carbide (SiC) is an
emerging color center for quantum technology covering quantum sensing, communication …
emerging color center for quantum technology covering quantum sensing, communication …
Fluorescence enhancement of single V2 centers in a 4H-SiC cavity antenna
Solid state quantum emitters are a prime candidate in distributed quantum technologies
since they inherently provide a spin–photon interface. An ongoing challenge in the field …
since they inherently provide a spin–photon interface. An ongoing challenge in the field …
Analysis, recent challenges and capabilities of spin-photon interfaces in Silicon carbide-on-insulator
Silicon-carbide (SiC) is a promising platform for long-distance quantum information
transmission via single photons, offering long spin coherence qubits, excellent electronic …
transmission via single photons, offering long spin coherence qubits, excellent electronic …
Approaching scalable quantum memory with integrated atomic devices
Quantum memory, which maps photonic quantum information into a stationary medium and
retrieves it at a chosen time, plays a vital role in the advancement of quantum information …
retrieves it at a chosen time, plays a vital role in the advancement of quantum information …
Precise Characterization of a Waveguide Fiber Interface in Silicon Carbide
M Krumrein, R Nold, F Davidson-Marquis… - ACS …, 2024 - ACS Publications
Spin-active optical emitters in silicon carbide are excellent candidates toward the
development of scalable quantum technologies. However, efficient photon collection is …
development of scalable quantum technologies. However, efficient photon collection is …
Efficient nuclear spin-photon entanglement with optical routing
Quantum networks and distributed quantum computers rely on entanglement generation
between photons and long-lived quantum memories. For large-scale architectures, one of …
between photons and long-lived quantum memories. For large-scale architectures, one of …
Experimental observation of spin defects in van der Waals material GeS
Spin defects in atomically thin two-dimensional (2D) materials such as hexagonal boron
nitride (hBN) attract significant attention for their potential quantum applications. The layered …
nitride (hBN) attract significant attention for their potential quantum applications. The layered …
Check-probe spectroscopy of lifetime-limited emitters in bulk-grown silicon carbide
GL van de Stolpe, LJ Feije, SJH Loenen, A Das… - arXiv preprint arXiv …, 2024 - arxiv.org
Solid-state single-photon emitters provide a versatile platform for exploring quantum
technologies such as optically connected quantum networks. A key challenge is to ensure …
technologies such as optically connected quantum networks. A key challenge is to ensure …
Two-Photon Interference of Photons from Remote Tin-Vacancy Centers in Diamond
V Bushmakin, O von Berg, C Sauerzapf… - arXiv preprint arXiv …, 2024 - arxiv.org
Scalable quantum networks rely on optical connections between long-lived qubits to
distribute entanglement. Tin vacancies in diamond have emerged as promising long-lived …
distribute entanglement. Tin vacancies in diamond have emerged as promising long-lived …
The Effect of Aluminium and Wet High Energy Ball Milling on the Properties and Composition of SiC
Silicon carbide (SiC) is a versatile material with significant applications in electronics and
quantum technology, and it is a highly regarded technical ceramic. Cost-efficient synthesis of …
quantum technology, and it is a highly regarded technical ceramic. Cost-efficient synthesis of …