Polarization averaged short-time Fourier transform technique for distributed fiber birefringence characterization using Brillouin gain

Shangran Xie; Liang Chen; Xiaoyi Bao

doi:10.1364/AO.51.004359

Applied Optics
Vol. 51,
Issue 19,
pp. 4359-4369
(2012)
•https://doi.org/10.1364/AO.51.004359

Polarization averaged short-time Fourier transform technique for distributed fiber birefringence characterization using Brillouin gain

Shangran Xie, Liang Chen, and Xiaoyi Bao

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Shangran Xie, Liang Chen, and Xiaoyi Bao, "Polarization averaged short-time Fourier transform technique for distributed fiber birefringence characterization using Brillouin gain," Appl. Opt. 51, 4359-4369 (2012)

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Table of Contents Category
- Fiber Optics and Optical Communications
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About this Article
History
- Original Manuscript: March 6, 2012
- Revised Manuscript: April 27, 2012
- Manuscript Accepted: April 29, 2012
- Published: June 26, 2012

Abstract

A polarization averaged short-time Fourier transform (PASTFT) technique is developed for distributed fiber birefringence characterization based on counterpropagating stimulated Brillouin scattering (SBS) gain signal. This technique can be used for the birefringence characterization of the general elliptical birefringent fiber. A theoretical model on polarization matching of counterpropagating SBS process is established. The performance of the short-time Fourier transform (STFT) method and the PASTFT technique is analyzed by using the simulation of the theoretical model. Simulation results show that the process of polarization average could effectively reduce the birefringence characterization error caused by the polarization dependence of the local period of SBS gain. A less than 8% normalized root mean square error is achieved for the characterization of the length of the birefringence vector on elliptical birefringent fibers. The PASTFT technique is experimentally verified by the distributed measurement of beat length and differential group delay of a standard single-mode fiber via the Brillouin optical time domain analysis system.

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$W_{STFT} / W_{c}$	Estimated Spatial Frequency ( $m^{- 1}$ )	Estimation Error (%)
5	201.9	0.95
2	206.9	3.45
1	220.9	10.45
0.5	262.3	31.15

$L (m)$	Number of SOP Averages Needed for Convergence	Normalized RMSE (%)
$L (m)$	Number of SOP Averages Needed for Convergence	Before SOP Average	After SOP Average
35	25	$15.2 \pm 3.1$	$7.5 \pm 2.0$
140	14	$8.9 \pm 3.0$	$7.5 \pm 2.0$
700	18	$8.8 \pm 1.4$	$7.2 \pm 1.3$
2500	9	$8.8 \pm 0.8$	$7.7 \pm 0.7$
10,000	10	$9.2 \pm 0.9$	$7.9 \pm 0.7$

$W_{STFT} / W_{c}$	Estimated Spatial Frequency ( $m^{- 1}$ )	Estimation Error (%)
5	201.9	0.95
2	206.9	3.45
1	220.9	10.45
0.5	262.3	31.15

$L (m)$	Number of SOP Averages Needed for Convergence	Normalized RMSE (%)
$L (m)$	Number of SOP Averages Needed for Convergence	Before SOP Average	After SOP Average
35	25	$15.2 \pm 3.1$	$7.5 \pm 2.0$
140	14	$8.9 \pm 3.0$	$7.5 \pm 2.0$
700	18	$8.8 \pm 1.4$	$7.2 \pm 1.3$
2500	9	$8.8 \pm 0.8$	$7.7 \pm 0.7$
10,000	10	$9.2 \pm 0.9$	$7.9 \pm 0.7$

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