Ultra narrowband infrared absorbers for omni-directional and polarization insensitive multi-spectral sensing microsystems

Sungho Kang, Z. Qian, Vageeswar Rajaram, A. Alú, M. Rinaldi
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引用次数: 13

Abstract

This paper reports on the experimental demonstration of wide-angle and polarization insensitive ultra­narrowband mid-infrared (MIR) plasmonic absorbers for multispectral sensing and imaging applications. By optimizing geometry and fabrication process of an ultra-thin (400 nm) metal-insulator-metal (MIM) metamaterial structure, we have been able to experimentally demonstrate high absorptivity (η>91%) mid-IR absorbers with the narrowest absorption bandwidth reported to date (full width at half maximum, FWHM∼225 nm, 4.29% at λ=5.23μm), while maintaining angle (θ=0∼60°) and polarization insensitivity. The unprecedented performance of such batch-microfabricated and lithographically defined ultra-thin absorbers paves the way to the development of new classes of plasmonically-enhanced multi-spectral sensing and imaging microsystems for non-invasive chemical sensing and IR spectral signature detection.
用于全向和偏振不敏感多光谱传感微系统的超窄带红外吸收器
本文报道了用于多光谱传感和成像的广角偏振不敏感超窄带中红外(MIR)等离子体吸收器的实验演示。通过优化超薄(400 nm)金属-绝缘体-金属(MIM)超材料结构的几何形状和制造工艺,我们已经能够实验证明高吸收率(η>91%)的中红外吸收器,具有迄今为止报道的最窄的吸收带宽(全宽度为最大的一半,FWHM ~ 225 nm, 4.29% λ=5.23μm),同时保持角度(θ=0 ~ 60°)和偏振不灵敏度。这种批量微加工和光刻定义的超薄吸收剂的前所未有的性能为新型等离子体增强多光谱传感和成像微系统的发展铺平了道路,用于非侵入性化学传感和红外光谱特征检测。
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