光学
物理
滤波器(信号处理)
光谱学
脉冲整形
方案(数学)
光学滤波器
光谱成像
折射率
迭代重建
材料科学
空间滤波器
信号处理
图像处理
带通滤波器
成像光谱学
散射
空间频率
谱线
作者
Teng Ma,Zhidong He,Ruhua Jin,Chunlai Li,Liyin Yuan
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2026-03-31
卷期号:34 (10): 17440-17440
摘要
This study proposes a mid-infrared (MIR) spectral sensing scheme based on a metasurface filter array integrated with a physics-data dual-driven algorithm. Two types of metasurface structures, namely the silicon-based gold micro-hole array (Si-Au-MHA) and the silicon-based gold micro-pillar array (Si-Au-MPA), were designed through simulation to determine their structural parameters for fabrication, aiming to achieve spectral control across the 3-12 μm band. Samples were fabricated, and the transmission spectra were measured and validated. Furthermore, a physics-data dual-driven spectral reconstruction method combining regularized physical constraint with a neural network was introduced, demonstrating superior performance in both amplitude and spectral profile compared to purely physics-based or data-driven approaches. This work provides a viable solution for portable MIR spectral sensing applications.
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