中红外法布里-珀罗显微光谱仪分析烃类气体的分辨率和速度的改进

Photonics West - Micro and Nano Fabricated Electromechanical and Optical Components Pub Date : 2014-03-07 DOI:10.1117/12.2038235

M. Ebermann, N. Neumann, K. Hiller, M. Seifert, M. Meinig, S. Kurth

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引用次数: 10

摘要

微机械可调谐法布里-帕姆罗特滤波器(μFPF)是新型微型光谱仪和分析仪的关键元件。世界各地的不同小组都在研究从可见光到长波红外光谱范围的μFPF。为了实现较大的调谐范围，滤波器通常工作在第一干涉阶。同时，由于有效精细度有限，使得光谱分辨率受到限制。各种应用都需要更高的分辨率。对于碳氢化合物气体的多组分分析尤其如此，因为单个吸收带非常相似并且广泛重叠。本文采用三阶和四阶μFPF结构，光谱分辨率约为(20)。30) nm，调谐范围为(3.1…3.7) μm。对于相邻范围内的附加气体(例如4.3 μm左右的CO2)的测量，提出了同时使用不同顺序的双频配置。大大降低了μFPF的阻尼，并与硒化铅光敏电阻而不是热检测器相结合，可以快速获取光谱。

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Resolution and speed improvements of mid-infrared Fabry-Perot microspectrometers for the analysis of hydrocarbon gases

Micromachined tunable Fabry-Pérot filters (μFPF) are key elements in a new class of miniature spectrometers and analyzers. Different groups all over the world are working on μFPF for spectral ranges from the visible up to the long wave infrared. In order to achieve a large tuning range, the filters are normally operated in the first interference order. At the same time the spectral resolution is limited due to a limited effective finesse. A variety of applications demand for higher resolutions. This is particularly true for the multicomponent analysis of hydrocarbon gases, because the individual absorption bands are very similar and widely overlapping. In this paper μFPF in 3rd and 4th order configuration with a spectral resolution of about (20. . . 30) nm and a tuning range of (3.1. . . 3.7) μm are presented. For the measurement of additional gases in adjacent ranges (e.g. CO2 around 4.3 μm) a dualband configuration with simultaneous use of different orders is proposed. A largely reduced damping of the μFPF and the combination with a lead selenide photoresistor instead of a thermal detector allows for a fast acquisition of spectra.

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Photonics West - Micro and Nano Fabricated Electromechanical and Optical Components

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