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View article: Commercial scanning nitrogen vacancy magnetometer in a closed-cycle cryostat
Commercial scanning nitrogen vacancy magnetometer in a closed-cycle cryostat Open
The ability to measure magnetic fields on the nanometre scale at cryogenic temperatures is key to understand magnetism on the quantum level and to develop materials for new storage devices or quantum computers. Nitrogen vacancy (NV) centre…
View article: Open-Cavity in Closed-Cycle Cryostat as a Quantum Optics Platform
Open-Cavity in Closed-Cycle Cryostat as a Quantum Optics Platform Open
The introduction of an optical resonator can enable efficient and precise interaction between a photon and a solid-state emitter. It facilitates the study of strong light-matter interaction, polaritonic physics and presents a powerful inte…
View article: Open-Cavity in Closed-Cycle Cryostat as a Quantum Optics Platform
Open-Cavity in Closed-Cycle Cryostat as a Quantum Optics Platform Open
The introduction of an optical resonator can enable efficient and precise interaction between a photon and a solid-state emitter. It facilitates the study of strong light-matter interaction, polaritonic physics and presents a powerful inte…
View article: Physical Origins of Extreme Cross-Polarization Extinction in Confocal Microscopy
Physical Origins of Extreme Cross-Polarization Extinction in Confocal Microscopy Open
Confocal microscopy is an essential imaging tool for biological systems, in\nsolid-state physics and nano-photonics. Using confocal microscopes allows\nperforming resonant fluorescence experiments, where the emitted light has the\nsame wav…
View article: Roadmap for Rare-earth Quantum Computing
Roadmap for Rare-earth Quantum Computing Open
Several platforms are being considered as hardware for quantum technologies. For quantum computing (QC), superconducting qubits and artificially trapped ions are among the leading platforms, but many others also show promise, e.g. photons,…