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Tunable VO2 cavity enables multispectral manipulation from visible to microwave frequencies

多光谱图像 微波食品加热 材料科学 遥感 光学 纳米光子学 光电子学 计算机科学 物理 电信 地质学
作者
Hang Wei,Jinxin Gu,Tao Zhao,Zhiyuan Yan,He‐Xiu Xu,Shuliang Dou,Cheng‐Wei Qiu,Yao Li
出处
期刊:Light-Science & Applications [Springer Nature]
卷期号:13 (1): 54-54 被引量:55
标识
DOI:10.1038/s41377-024-01400-w
摘要

Abstract Optical materials capable of dynamically manipulating electromagnetic waves are an emerging field in memories, optical modulators, and thermal management. Recently, their multispectral design preliminarily attracts much attention, aiming to enhance their efficiency and integration of functionalities. However, the multispectral manipulation based on these materials is challenging due to their ubiquitous wavelength dependence restricting their capacity to narrow wavelengths. In this article, we cascade multiple tunable optical cavities with selective-transparent layers, enabling a universal approach to overcoming wavelength dependence and establishing a multispectral platform with highly integrated functions. Based on it, we demonstrate the multispectral (ranging from 400 nm to 3 cm), fast response speed (0.9 s), and reversible manipulation based on a typical phase change material, vanadium dioxide. Our platform involves tandem VO 2 -based Fabry–Pérot (F-P) cavities enabling the customization of optical responses at target bands independently. It can achieve broadband color-changing capacity in the visible region (a shift of ~60 nm in resonant wavelength) and is capable of freely switching between three typical optical models (transmittance, reflectance, and absorptance) in the infrared to microwave regions with drastic amplitude tunability exceeding 0.7. This work represents a state-of-art advance in multispectral optics and material science, providing a critical approach for expanding the multispectral manipulation ability of optical systems.
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