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Enabling switchable and multifunctional terahertz metasurfaces with phase-change material

Dacheng Wang, Song Sun, Zheng Feng, Wei Tan

2020Optical Materials Express40 citationsDOIOpen Access PDF

Abstract

Achieving switchable and diversified functionalities in a single metasurface has garnered great research interest for potential terahertz applications. Here, we propose and demonstrate a phase-change metasurface that simultaneously supports broadband electromagnetically induced transparency (EIT) and broadband nearly perfect absorption, depending on the phase state of a phase change material-vanadium dioxide (VO 2 ). The phase-change metasurface is composed of a VO 2 nanofilm, a quartz spacer and gold split-square-ring resonators with VO 2 nanopads embedded into the splits. When VO 2 is in its insulating phase at room temperature, a broadband EIT window (maximum transmittance reaching 83%) with a bandwidth of 0.27 THz (relative bandwidth 30%) can be observed. Alternatively, when VO 2 transforms into its fully metallic phase, the EIT functionality will be switched off and instead, the metasurface operates as a broadband absorber with the total absorption exceeding 93% and a bandwidth of 0.5 THz (relative bandwidth 74%). The electric and magnetic field distributions indicate that the broadband EIT stems from the bright-bright mode coupling and the broadband absorption arises from the excitation and superposition of two resonances within a metal-insulator-metal cavity. The design scheme is scalable from terahertz to infrared and optical frequencies, enabling new avenues towards switchable and multifunctional meta-devices.

Topics & Concepts

Terahertz radiationMaterials scienceOptoelectronicsBroadbandElectromagnetically induced transparencyMetamaterialPlasmonResonatorOpticsBandwidth (computing)PhysicsTelecommunicationsComputer scienceMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchAdvanced Antenna and Metasurface Technologies