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Dynamic terahertz anisotropy and chirality enhancement in liquid-crystal anisotropic dielectric metasurfaces

Huijun Zhao, Fei Fan, Tian-Rui Zhang, Yunyun Ji, Shengjiang Chang

2022Photonics Research45 citationsDOI

Abstract

To enhance and actively control terahertz (THz) anisotropy and chirality, we have designed and fabricated a THz composite device with a liquid crystal (LC) layer and Si anisotropic metasurface. By initial anchoring and electrically rotating the spatial orientation of the LC optical axis, the different symmetry relationships are obtained in this hybrid device. When the optical axis of LC is parallel or perpendicular to the optical axis of the Si metasurface, the anisotropy of the device will be enhanced or offset, which leads to a tunable phase-shift range of more than 180°. When there is an angle between the two optical axes, due to the destruction of the mirror symmetry in the LC-Si anisotropic medium, the highest circular dichroism of the device reaches 30 dB in the middle orientation state of the LC optical axis, and the active modulation can be realized by changing the bias electric field on the LC layer. This composite device demonstrates rich characteristics for the feasible manipulation of THz polarization conversion and chiral transmission, which can be applied in THz polarization imaging and chiral spectroscopy.

Topics & Concepts

Materials scienceTerahertz radiationLiquid crystalOpticsAnisotropyBirefringencePolarization (electrochemistry)Optical axisOptoelectronicsElectric fieldPhysicsChemistryPhysical chemistryLens (geology)Quantum mechanicsTerahertz technology and applicationsMetamaterials and Metasurfaces ApplicationsMillimeter-Wave Propagation and Modeling
Dynamic terahertz anisotropy and chirality enhancement in liquid-crystal anisotropic dielectric metasurfaces | Litcius