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Switchable coding metasurface for flexible manipulation of terahertz wave based on Dirac semimetal

Jingjing Huang, Xiaona Yin, Man Xu, Meng Liu, Yuping Zhang, Huiyun Zhang

2022Results in Physics31 citationsDOIOpen Access PDF

Abstract

In this study, a switchable coding metasurface was demonstrated in the terahertz (THz) frequency range to realize dynamic beam steering based on a Dirac semimXetal. The relative phase delay of the proposed metamaterials unit cell can be actively controlled by changing the Fermi level (EF) of the Dirac semimetal film (DSF). For the 1-bit coding metasurface, the coding units with ‘0′ and ‘1′ states can be switched on/off in the frequency range of 1.46–2 THz by changing the EF value of the DSF. The beam numbers and propagation direction of the reflected waves in such 1-bit coding metasurfaces can be engineered at will. Moreover, a dynamically controlled 2-bit coding metasurface was constructed based on DSF microstructures to realize more sophisticated beam manipulation. When EF was set to 0.3 eV, the relative phase delay of the four-unit structure at 1.0 THz was increased from 0° to 360° with an interval of 90°. When EF decreased to 0.02 eV, the relative phase delay of the four-unit structure was reduced accordingly, and the phase coverage decreased to only 30°. Based on the above results, switching between abnormal/specular reflection and on/off vortex generation were realized. The proposed coding metasurfaces are promising for use in THz communication and sensing applications.

Topics & Concepts

Terahertz radiationSemimetalDirac (video compression format)PhysicsOptoelectronicsGrapheneTerahertz metamaterialsCoding (social sciences)Materials scienceOpticsQuantum mechanicsFar-infrared laserLaserSociologySiliconNeutrinoSocial scienceMetamaterials and Metasurfaces ApplicationsAntenna Design and AnalysisAdvanced Antenna and Metasurface Technologies
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