An Efficient Bi-functional Metagrating via Asymmetric Diffraction of Terahertz Beams

Xipu Dong, Jierong Cheng, Shengjiang Chang
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引用次数: 0

Abstract

Growing attention has been paid to multifunctional metasurfaces due to the compactness and the flexibility in beam manipulation. A bi-functional metagrating capable of anomalous refraction and beam splitting via asymmetric diffraction is designed, 3D-printed and experimentally verified at 0.14 THz. The asymmetric diffraction behavior is well explained by the excitation-direction-dependent mode amplitude inside the metagrating based on a simplified modal method. The measured efficiency of anomalous refraction towards +70° is 80.7% under +z illumination, and the measured efficiency of beam splitting is 43.7%/39.5% towards -70°/+70° under –z illumination. Our work opens a new avenue in developing multifunctional and compact terahertz devices for wavefront shaping via excitation directions.
基于太赫兹光束不对称衍射的高效双功能介聚光
多功能超表面由于其紧凑性和光束操作的灵活性而受到越来越多的关注。设计了一种双功能偏光器件,能够通过不对称衍射进行异常折射和光束分裂,并进行了3d打印和0.14太赫兹实验验证。基于简化的模态方法,用与激发方向相关的模态振幅可以很好地解释不对称衍射行为。在+z光照下,向+70°方向的异常折射效率为80.7%,向-70°/+70°方向的光束分裂效率为43.7%/39.5%。我们的工作为开发通过激励方向进行波前整形的多功能紧凑太赫兹器件开辟了一条新的途径。
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