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A CMOS-integrated terahertz near-field sensor based on an ultra-strongly coupled meta-atom

Alexander V. Chernyadiev, Dmytro B. But, Yurii Ivonyak, Kȩstutis Ikamas, Alvydas Lisauskas

2024Scientific Reports11 citationsDOIOpen Access PDF

Abstract

Recently, plasmonic-based sensors operating in the terahertz frequency range have emerged as perspective tools for rapid and efficient label-free biosensing applications. In this work, we present a fully electronic approach allowing us to achieve state-of-the-art sensitivity by utilizing a near-field-coupled electronic sensor. We demonstrate that the proposed concept enables the efficient implementation and probing of a so-called ultra-strongly coupled sub-wavelength meta-atom as well as a single resonant circuit, allowing to limit the volume of material under test down to a few picoliter range. The sensor has been monolithically integrated into a cost-efficient silicon-based CMOS technology. Our findings are supported by both numerical and analytical models and validated through experiments. They lay the groundwork for near-future developments, outlining the perspectives for a terahertz microfluidic lab-on-chip dielectric spectroscopy sensor.

Topics & Concepts

Terahertz radiationCMOSOptoelectronicsField (mathematics)PhysicsAtom (system on chip)Materials scienceAtomic physicsComputer scienceEmbedded systemMathematicsPure mathematicsTerahertz technology and applicationsPhotonic and Optical DevicesSemiconductor Quantum Structures and Devices
A CMOS-integrated terahertz near-field sensor based on an ultra-strongly coupled meta-atom | Litcius