Litcius/Paper detail

Millimeter-wave to near-terahertz sensors based on reversible insulator-to-metal transition in VO2

Fatemeh Qaderi, Teodor Rosca, Maurizio Burla, Juerg Leuthold, Denis Flandre, Adrian M. Ionescu

2023Communications Materials13 citationsDOIOpen Access PDF

Abstract

Abstract In the quest for low power bio-inspired spiking sensors, functional oxides like vanadium dioxide are expected to enable future energy efficient sensing. Here, we report uncooled millimeter-wave spiking detectors based on the sensitivity of insulator-to-metal transition threshold voltage to the incident wave. The detection concept is demonstrated through actuation of biased VO 2 switches encapsulated in a pair of coupled antennas by interrupting coplanar waveguides for broadband measurements, on silicon substrates. Ultimately, we propose an electromagnetic-wave-sensitive voltage-controlled spike generator based on VO 2 switches in an astable spiking circuit. The fabricated sensors show responsivities of around 66.3 MHz.W −1 at 1 μW, with a low noise equivalent power of 5 nW.Hz −0.5 at room temperature, for a footprint of 2.5 × 10 −5 mm 2 . The responsivity in static characterizations is 76 kV.W −1 . Based on experimental statistical data measured on robust fabricated devices, we discuss stochastic behavior and noise limits of VO 2 -based spiking sensors applicable for wave power sensing in mm-wave and sub-terahertz range.

Topics & Concepts

ResponsivityTerahertz radiationOptoelectronicsMaterials scienceVoltageExtremely high frequencyBiasingCMOSNoise (video)Electrical engineeringPhysicsOpticsComputer sciencePhotodetectorArtificial intelligenceImage (mathematics)EngineeringTransition Metal Oxide NanomaterialsGas Sensing Nanomaterials and SensorsAdvanced Memory and Neural Computing