Novel Brillouin Optical Time-Domain Analyzer for Extreme Sensing Range Using High-Power Flat Frequency-Coded Pump Pulses

Author

Le Floch, Sebastien ; Sauser, Florian ; Llera, Miguel ; Rochat, Etienne

Author_Institution

Metrol. & Quality Eng. Lab., Haute Ecole ARC, St. Imier, Switzerland

Volume

33

Issue

12

fYear

2015

fDate

June15, 15 2015

Firstpage

2623

Lastpage

2627

Abstract

In this paper, we propose a novel Brillouin optical time-domain analysis setup that combines simultaneous Brillouin gain/loss measurements with colour coding. This technique gives the advantage that the pump power can greatly be increased, compared to other coding schemes; thus, increasing the sensing range. A first measurement over a 200-km fiber loop is performed, with a 3-m spatial resolution and an accuracy of ±3 MHz (2σ) at the end of the sensing fiber. In a second setup, high-power flat pump pulses are generated by applying an arbitrary waveform signal on a frequency shifter; thus, further increasing the performance of the novel Brillouin sensor. To the best of our knowledge, these are the best results obtained with a Brillouin sensor without Raman amplification.

Keywords

Brillouin spectra; distributed sensors; fibre optic sensors; optical fibre losses; optical fibre testing; optical pulse generation; optical pumping; optical variables measurement; Brillouin optical time-domain analyzer; Brillouin sensor; arbitrary waveform signal; colour coding; extreme sensing range; fiber loop; high-power flat frequency-coded pump pulse generation; optical frequency shifter; simultaneous Brillouin gain-loss measurements; spatial resolution; Encoding; Optical fiber sensors; Optical fibers; Probes; Scattering; Brillouin scattering; distributed fiber sensors; fiber optics sensors; optical coding; optical coding.;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2014.2365213

Filename

6949601