Litcius/Paper detail

Quantum sensing of radio-frequency signal with NV centers in SiC

Zhengzhi Jiang, Hongbing Cai, Robert Čerňanský, Xiaogang Liu, Weibo Gao

2023Science Advances58 citationsDOIOpen Access PDF

Abstract

Silicon carbide is an emerging platform for quantum technologies that provides wafer scale and low-cost industrial fabrication. The material also hosts high-quality defects with long coherence times that can be used for quantum computation and sensing applications. Using an ensemble of nitrogen-vacancy centers and an XY8-2 correlation spectroscopy approach, we demonstrate a room-temperature quantum sensing of an artificial AC field centered at ~900 kHz with a spectral resolution of 10 kHz. Implementing the synchronized readout technique, we further extend the frequency resolution of our sensor to 0.01 kHz. These results pave the first steps for silicon carbide quantum sensors toward low-cost nuclear magnetic resonance spectrometers with a wide range of practical applications in medical, chemical, and biological analysis.

Topics & Concepts

Quantum computerQuantum sensorSilicon carbideCoherence (philosophical gambling strategy)SpectrometerWaferQuantumQuantum technologyMaterials scienceSpectral resolutionOptoelectronicsResolution (logic)Computer sciencePhysicsQuantum networkSpectral lineOpticsOpen quantum systemAstronomyArtificial intelligenceMetallurgyQuantum mechanicsDiamond and Carbon-based Materials ResearchCarbon Nanotubes in CompositesSemiconductor materials and devices