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Paper detail

Glass-patternable notch-shaped microwave architecture for on-chip spin detection in biological samples

We report a notch-shaped coplanar microwave waveguide antenna on a glass plate designed for on-chip detection of optically detected magnetic resonance (ODMR) of fluorescent nanodiamonds (NDs). A lithographically patterned thin wire at the center of the notch area in the coplanar waveguide realizes a millimeter-scale ODMR detection area (1.5 x 2.0 mm^2) and gigahertz-broadband characteristics with low reflection (about 8%). The ODMR signal intensity in the detection area is quantitatively predictable by numerical simulation. Using this chip device, we demonstrate a uniform ODMR signal intensity over the detection area for cells, tissue, and worms. The present demonstration of a chip-based microwave architecture will enable scalable chip integration of ODMR-based quantum sensing technology into various bioassay platforms.

preprint2022arXivOpen access
Keisuke OshimiYushi NishimuraTsutomu MatsubaraMasuaki TanakaEiji ShikohLi ZhaoYajuan ZouNaoki KomatsuYuta IkadoYuka TakezawaEriko Kage-NakadaiYumi IzutsuKatsutoshi YoshizatoSaho MoritaMasato TokunagaHiroshi YukawaYoshinobu BabaYoshio TekiMasazumi Fujiwara
physics.app-phquant-ph
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Keisuke OshimiYushi NishimuraTsutomu MatsubaraMasuaki TanakaEiji ShikohLi ZhaoYajuan ZouNaoki KomatsuYuta IkadoYuka TakezawaEriko Kage-NakadaiYumi IzutsuKatsutoshi YoshizatoSaho MoritaMasato TokunagaHiroshi YukawaYoshinobu BabaYoshio TekiMasazumi Fujiwara

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