可重构紫外和高能可见介电超材料。

Reconfigurable Ultraviolet and High-Energy Visible Dielectric Metamaterials.

机构信息

Department of Electrical and Computer Engineering , University of Alberta , Edmonton , Canada.

Centre for Disruptive Photonic Technologies, School of Physical and Mathematical Sciences and The Photonics Institute , Nanyang Technological University , 637371 , Singapore.

出版信息

Nano Lett. 2019 Mar 13;19(3):1643-1648. doi: 10.1021/acs.nanolett.8b04576. Epub 2019 Feb 28.

DOI:10.1021/acs.nanolett.8b04576

PMID:30721072

Abstract

Photonic materials with tunable and switchable ultraviolet (UV) to high-energy visible (HEV) optical properties may benefit applications such as sensing, high-density optical memory, beam-steering, adaptive optics, and light modulation. Here, for the first time we demonstrate a nonvolatile switchable dielectric metamaterial operating in the UV-HEV spectral range. Nanograting metamaterials in a layered composite of low-loss ZnS/SiO and the chalcogenide phase-change medium germanium-antimony-telluride (GeSbTe or GST) exhibit reflection resonances at UV-HEV wavelengths that are substantially modified by light-induced (amorphous-crystalline) phase transitions in the chalcogenide layer. Despite the presence of the lossy GST, resonance quality factors up to Q ∼ 15 are ensured by the transparency (low losses) of ZnS/SiO in the UV-HEV spectral range and values of Q increase as the refractive index of GeSbTe decreases, upon crystallization. Notably, however, this switching leaves resonance spectral positions unchanged.

摘要

具有可调谐和可切换的紫外 (UV) 到高能可见光 (HEV) 光学特性的光子材料可应用于传感、高密度光存储、光束转向、自适应光学和光调制等领域。在这里，我们首次展示了一种在 UV-HEV 光谱范围内工作的非易失性可切换介电超材料。在低损耗 ZnS/SiO 层状复合材料和硫属化物相变介质锗锑碲 (GeSbTe 或 GST) 的纳米光栅超材料在 UV-HEV 波长处表现出反射共振，这些共振可通过硫属化物层中的光诱导（非晶-晶）相转变得到显著修改。尽管存在损耗 GST，但 ZnS/SiO 在 UV-HEV 光谱范围内的透明性（低损耗）确保了高达 Q∼15 的共振品质因数，并且随着 GeSbTe 折射率的降低，结晶时 Q 值会增加。值得注意的是，然而，这种切换不会改变共振光谱位置。

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可重构紫外和高能可见介电超材料。

Reconfigurable Ultraviolet and High-Energy Visible Dielectric Metamaterials.

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