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Terahertz quantum sensing

Mirco Kutas, Björn Haase, Patricia Bickert, Felix Riexinger, Daniel Molter, Georg von Freymann

2020Science Advances146 citationsDOIOpen Access PDF

Abstract

Quantum sensing is highly attractive for accessing spectral regions in which the detection of photons is technically challenging: Sample information is gained in the spectral region of interest and transferred via biphoton correlations into another spectral range, for which highly sensitive detectors are available. This is especially beneficial for terahertz radiation, where no semiconductor detectors are available and coherent detection schemes or cryogenically cooled bolometers have to be used. Here, we report on the first demonstration of quantum sensing in the terahertz frequency range in which the terahertz photons interact with a sample in free space and information about the sample thickness is obtained by the detection of visible photons. As a first demonstration, we show layer thickness measurements with terahertz photons based on biphoton interference. As nondestructive layer thickness measurements are of high industrial relevance, our experiments might be seen as a first step toward industrial quantum sensing applications.

Topics & Concepts

Terahertz radiationBolometerDetectorPhotonOptoelectronicsPhysicsOpticsTerahertz gapSemiconductorQuantumPhotodetectorPhotonicsTerahertz spectroscopy and technologyMaterials scienceQuantum sensorQuantum opticsRange (aeronautics)Photon countingSample (material)Quantum dotLayer (electronics)SIGNAL (programming language)Photon entanglementQuantum efficiencyPhotomixingTerahertz technology and applicationsStrong Light-Matter InteractionsMechanical and Optical Resonators
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