液晶可调谐介电超表面研究进展

Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX Pub Date : 2021-08-01 DOI:10.1117/12.2595146

I. Staude

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引用次数: 0

摘要

通常，光学超表面的功能在其制造设计中是“硬编码”的。然而，它是非常理想的动态调整，甚至自由编程的元表面功能也在制造之后。最近，我们已经通过集成到向列液晶电池中，证明了空间均匀Mie谐振硅超表面的强主动调谐。这次演讲将回顾我们在这一领域的最新进展。特别是，动态波前控制和发射模式调谐的例子将被讨论。我们的研究结果可能对未来基于元表面的设备的实现感兴趣，这些设备可以根据需要动态重新配置。

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Recent progress in liquid-crystal-tunable dielectric metasurfaces

Typically, the functionality of an optical metasurface is “hard‐coded” in its fabricated design. However, it is highly desirable to dynamically tune or even freely program the metasurface functionality also after fabrication. Recently, we have demonstrated strong active tuning of spatially homogeneous Mie‐resonant silicon metasurface by integration into nematic liquid crystal cells. This talk will review our recent advances in this field. In particular, examples of dynamic wavefront control and emission pattern tuning will be discussed. Our results can be of interest for the realization of future metasurface-based devices that can be dynamically reconfigured on demand.

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Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XIX

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