Sensitivity Enhancement Of A Cantilever-Enhanced Photo-Acoustic Spectroscopic Sensor By An Optical Build-Up Cavity
european quantum electronics conference(2019)
摘要
Laser photo-acoustic spectroscopy (LPAS) is a highly sensitive and selective method for trace gas analysis. One of the most advanced LPAS techniques is cantilever-enhanced photo-acoustic spectroscopy (CEPAS), which can reach down to low-ppt and sub-ppt level trace gas detection sensitivities with high power lasers [1,2]. The selection of wavelengths and tunability of high power narrow linewidth lasers is, however, limited. They are also rarely suitable for field deployable analysers, which would require a small and robust form factor. An alternative approach, potentially overcoming these weaknesses, is to build up the optical power of a standard distributed feedback diode laser (DFB) or a quantum cascade laser in an external optical cavity [3,4].
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关键词
high power narrow linewidth lasers,optical power,standard distributed feedback diode laser,quantum cascade laser,external optical cavity,sensitivity enhancement,laser photo-acoustic spectroscopy,highly sensitive method,selective method,trace gas analysis,cantilever-enhanced photo-acoustic spectroscopy,sub-ppt level trace gas detection sensitivities,cantilever-enhanced photoacoustic spectroscopic sensor,optical build-up cavity,LPAS techniques,low-ppt level trace gas detection sensitivity
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