Ultra reliable infrared absorption water vapor detection through the all-electronic feedback stabilization
Abstract
Single-beam balanced radiometric detection (BRD) system with all-electronic feedback stabilization has been proposed for high reliability water vapor detection under rough environmental conditions, which is insensitive to the fluctuation of transmission loss of light. The majority of photocurrent attenuation caused by the optical loss can be effectively compensated by automatically adjusting the splitting ratio of probe photocurrent. Based on the Ebers-Moll model, we present a theoretical analysis which can be suppressed the photocurrent attenuation caused by optical loss from 0.5552 dB to 0.0004 dB by using the all-electronic feedback stabilization. The deviation of the single-beam BRD system is below 0.29% with the bending loss of 0.31 dB in fiber, which is obviously lower than the dual-beam BRD system (5.96%) and subtraction system (11.3%). After averaging and filtering, the absorption sensitivity of water vapor at 1368.597 nm has been demonstrated, which is 7.368×10-6.
- Publication:
-
Optics Communications
- Pub Date:
- March 2014
- DOI:
- 10.1016/j.optcom.2013.11.011
- Bibcode:
- 2014OptCo.315..388Z
- Keywords:
-
- Balanced radiometric detection;
- Water vapor detection;
- Transmission loss;
- All-electronic feedback stabilization