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Electrically controlled real-time terahertz “microladder” integrated with VO2 patches for broadband holographic encryption

Shuxiang Ma, Yulong Fan, L. M. Chen, Chunwang Zhao, Jiandong Sun, Feihu Wang, Dangyuan Lei, Shu Chen, Peng Wang, Yiming Zhu, Songlin Zhuang

2025Advanced Photonics16 citationsDOIOpen Access PDF

Abstract

High-quality and real-time holographic imaging based on dynamically tunable metasurfaces has attracted immense interest. Despite remarkable progress, the complex electrical pattern designs and slow-speed near-field scanning terahertz (THz) microscopy systems have significantly hindered the development of real-time electrically tunable metasurface holography in the THz band. We propose and experimentally demonstrate an electrically tunable vanadium dioxide (VO<sub>2</sub>)-based active metasurface that can generate real-time bias-controlled holographic information via a THz focal plane imaging system. By elaborately designing “microladders” integrated with VO<sub>2</sub> pads, the device exhibits low power consumption (∼0.8 W) and real-time imaging (∼4.5 s). The quantitative method is theoretically utilized to investigate the thermal parameters dependent thermodynamics of the “ladder” metasurface based on theoretical analysis with the aid of thermal modelling. The calculated dynamic response time based on the quantitative thermodynamic model agrees well with experimental results. Our study can be used to propel the development of THz electrically tunable metasurfaces for low-power-consumption dynamic, real-time displays, and information encryption, providing crucial insights for future optimization of VO<sub>2</sub>-based electrothermally tunable holographic metasurfaces. © The Authors.

Topics & Concepts

Terahertz radiationHolographyOpticsMaterials scienceBroadbandOptoelectronicsCardinal pointThermalMicrobolometerInfraredGround planePower (physics)PhysicsVanadium dioxideFar infraredPower consumptionPlane (geometry)Lens (geology)Reflection (computer programming)MicroscopyAngular spectrum methodImage planePhotonic and Optical DevicesSuperconducting and THz Device TechnologyTerahertz technology and applications
Electrically controlled real-time terahertz “microladder” integrated with VO2 patches for broadband holographic encryption | Litcius