Research progress of optical H2O sensor with a DFB diode laser

In the field of near infrared H 2 O sensing, the acquisition of the absorption signal usually is from a noisy background, thus it is important to adopt an effective signal demodulation method. This study introduced the research progress in the field of trace water vapor detection, covering different...

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Bibliographic Details
Published in:Photonic sensors (Berlin) 2014-06, Vol.4 (2), p.113-119
Main Authors: Lv, Guangping, Chang, Jun, Wang, Qingpu, Wang, Qiang, Wei, Wei
Format: Article
Language:English
Subjects:
Lasers
Measurement Science and Instrumentation
Microwaves
Optical Devices
Optics
Photonics
Physics
Physics and Astronomy
RF and Optical Engineering
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Summary:In the field of near infrared H 2 O sensing, the acquisition of the absorption signal usually is from a noisy background, thus it is important to adopt an effective signal demodulation method. This study introduced the research progress in the field of trace water vapor detection, covering different individual gas detection techniques. On the basis of the conventional double-beam differential absorption, the division method in voltage and the dual-peak method based on the differential value of two adjacent absorption lines have been studied. Voltage division has an excellent stability to temperature variation, mechanical extrusion, and fiber bend loss. The dual-peak method proved a linear relation with the water vapor concentration, and this method provided a way to measure the concentration at high pressure. Furthermore, the so called balanced ratiometer detection (BRD) was introduced. It has an outstanding self-adjusting capability, and it can also avoid an excess phase difference caused by the current-to-voltage converting circuit, thus this method has a high sensitivity. In addition, the second harmonic technique applied to gas detection was introduced, and for the high-frequency modulation via driving current, 1/ f was suppressed apparently; as a result, this technique realized a better sensitive detection by one to two orders of magnitude.
ISSN:1674-9251
2190-7439
DOI:10.1007/s13320-014-0151-x