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Theoretical investigation of a tunable vanadium dioxide-based metastructure for ultra-wideband absorption and linear-to-circular polarization conversion across triple-octave frequencies

Shuo Dai, Si-Yuan Liao, Jun-Rui Pan, Haifeng Zhang

2025Nanoscale7 citationsDOI

Abstract

, the MS is shown to operate as a converter tripling the octave frequency in linear-to-circular polarization, with an axial ratio below 3 dB across the frequency ranges of 0.95-1.68 THz and 2.25-4.49 THz, corresponding to relative bandwidths of 55.51% and 66.27%. Remarkably, the polarization conversion in the insulating state exhibits tripling octave frequency characteristics, with a fundamental bandwidth spanning 0.95-1.49 THz and a tripling octave frequency bandwidth spanning 2.85-4.48 THz. The MS can switch between distinct functionalities within the terahertz regime, offering significant potential for applications such as spectral analysis, signal encryption, stealth material preparation, and other advanced terahertz technologies.

Topics & Concepts

Materials scienceWidebandOctave (electronics)Polarization (electrochemistry)Circular polarizationVanadium dioxideAbsorption (acoustics)OpticsOptoelectronicsPhysicsChemistryNanotechnologyThin filmComposite materialMicrostripPhysical chemistryAdvanced Fiber Optic SensorsAdvanced Antenna and Metasurface TechnologiesSilicone and Siloxane Chemistry
Theoretical investigation of a tunable vanadium dioxide-based metastructure for ultra-wideband absorption and linear-to-circular polarization conversion across triple-octave frequencies | Litcius