Title :
Distributed Temperature Sensor Interrogator Based on Polarization-Sensitive Reflectometry
Author :
Crunelle, Cathy ; Legré, Marc ; Wuilpart, M. ; Mégret, Patrice ; Gisin, Nicolas
Author_Institution :
Dept. of Electromagn. & Telecommun., Fac. Polytech. de Mons, Mons, Belgium
Abstract :
In this paper, a polarization-sensitive reflectometry technique has been investigated in order to serve as an interrogating device in distributed sensing applications. As the sensing fiber has a beat length of about a few centimeters, a high-resolution reflectometer was required. A coherent optical frequency-domain reflectometer (OFDR) was used from this perspective. The principle is based on the linear dependence of fiber beat length on temperature. The reported experimental results detail the calibration method and discuss the features of the interrogating device in terms of temperature threshold and spatial resolution. The proposed system, exploiting the Rayleigh backscatter signal, offers an interesting alternative to existing systems, mainly based on nonlinear effects.
Keywords :
Rayleigh scattering; distributed sensors; fibre optic sensors; frequency-domain analysis; optical fibre polarisation; reflectometry; temperature sensors; OFDR; Rayleigh backscatter signal; distributed temperature sensor interrogator; high-resolution reflectometer; linear dependency; optical frequency-domain reflectometer; polarization-sensitive reflectometry; sensing fiber beat length; spatial resolution; temperature threshold; Calibration; Fiber nonlinear optics; Nonlinear optics; Optical fiber devices; Optical fiber polarization; Optical fiber sensors; Optical sensors; Reflectometry; Temperature dependence; Temperature sensors; Beat length; coherent optical frequency-domain reflectometry (OFDR); distributed temperature sensing; optical time-domain reflectometry (OTDR); polarization;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2009.2026525
