消光比
材料科学
红外线的
光学
响应度
栅栏
极化(电化学)
光电子学
消光(光学矿物学)
探测器
波长
导模共振
透射率
衍射光栅
共振(粒子物理)
线极化
严格耦合波分析
红外探测器
光电探测器
表面等离子共振
光学滤波器
红外光谱学
作者
Xiangyu Zhang,Dongwei Jiang,W. M. He,Ye Zhang,Yaqi Zhao,F. Gao,Hao Xie,Hongyue Hao,Donghai Wu,Guowei Wang,Yingqiang Xu,Xiaoning Guan,Dongbo Wang,JinZhong Wang,Zhichuan Niu
摘要
Au gratings are widely employed as the primary architecture in infrared linear polarization detectors; however, they suffer from significant optical losses in the long-wave infrared range, resulting in limited extinction ratios. In this study, we present a highly polarization-sensitive Au/SiO2 double-layer linear grating integrated into InAs/GaSb superlattice-based long-wave infrared detectors. Finite-difference time-domain simulations demonstrate that by leveraging the Fabry–Pérot resonance cavity within the SiO2 grating, the structure enhances the transmittance of TM-polarized light while suppressing that of TE-polarized light, thereby significantly improving the extinction ratio. Compared to conventional Au grating-based polarization detectors, the proposed device exhibits superior responsivity to TM-polarized light and a higher extinction ratio across the 8–14 μm wavelength range. Specifically, the extinction ratio improves by a factor of 1.25 at 9.2 μm. This approach offers an effective strategy for advancing high-performance long-wave infrared linear polarization detectors.
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