基于临界相位匹配差频生成的宽可调谐激光光谱仪在体LiNbO/sub /中的痕量气体检测

CLEO/Europe Conference on Lasers and Electro-Optics Pub Date : 1998-09-14 DOI:10.1109/CLEOE.1998.719609

M. Seiter, D. Keller, M. Sigrist

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引用次数: 0

摘要

利用吸收光谱技术对多组分气体混合物中的痕量气体进行选择性、灵敏的检测，需要窄带连续可调谐激光源。利用可调795 ~ 825 nm的连续波外腔二极管激光器(ECDL)和1064 nm的二极管泵浦单片连续波Nd:YAG激光器作为信号波，利用体化LiNbO3的差频产生(DFG)技术产生了3.16 ~ 3.67 μm的窄带(几MHz)中红外激光。许多感兴趣的化合物(CH4, H2CO，…)在这个基本波长区域表现出特有的强吸收。采用多通池作为毒气室，有效路径长度为36 m，与灵敏的红外探测器结合使用，记录吸收光谱。这种激光光谱仪真正的多组分能力要求在中红外波段具有宽窄带连续可调性。

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Broadly Tunable Laser Spectrometer for Trace Gas Detection Based on Critically Phase-Matched Difference-Frequency Generation in Bulk LiNbO/sub 3/

The selective and sensitive detection of trace gases in multicomponent gas mixtures by means of absorption spectroscopy requires narrowband continuously tunable laser sources. Using a cw External Cavity Diode Laser (ECDL), tunable between 795 and 825 nm as pump wave, and a diode-pumped monolithic cw Nd:YAG laser at 1064 nm as signal wave, we produce narrowband (a few MHz) mid infrared laser light between 3.16 and 3.67 μm by Difference-Frequency Generation (DFG) in bulk LiNbO3. Many compounds of interest (CH4, H2CO, …) show characteristic strong absorptions in this fundamental wavelength region. A multipass cell employed as a gas chamber with an effective path length of 36 m is used in combination with sensitive IR detectors for recording absorption spectra. True multicomponent capability of such a laser spectrometer requires a broad, narrowband, continuous tunability in the mid-IR.

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CLEO/Europe Conference on Lasers and Electro-Optics

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