Mitigating probe pulse deformation in Raman amplification in OTDR fiber sensing systems-Reference-Cited by-同舟云学术

Mitigating probe pulse deformation in Raman amplification in OTDR fiber sensing systems

Published:2023-03-21 Issue:7 Volume:31 Page:11457
ISSN:1094-4087
Container-title:Optics Express
language:en
Short-container-title:Opt. Express

Author:

Wang Zepeng,Vandborg Mads Holmark,Joy Tomin¹,Mathew Neethu Mariam^ORCID,Grüner-Nielsen Lars²^ORCID,Rishøj Lars Søgaard,Christensen Jesper Bjerge³^ORCID,Jostmeier Thorben¹,Marx Benjamin¹,Hill Wieland¹,Rottwitt Karsten

Affiliation:

1. LUNA Innovations Germany GmbH

2. Danish Optical Fiber Innovation

3. Danish Fundamental Metrology

Abstract

We report the numerical and experimental study of probe pulse deformation in a forward-pumped distributed Raman amplifier on a 40-km standard single mode fiber. Distributed Raman amplification can improve the range of OTDR-based sensing systems, but it could result in pulse deformation. A smaller Raman gain coefficient can be used to mitigate pulse deformation. The sensing performance can still be maintained by compensating for the decrease in the Raman gain coefficient by increasing the pump power. The tunability of the Raman gain coefficient and pump power levels are predicted while keeping the probe power below the modulation instability limit.

Funder

Innovationsfonden

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

Reference17 articles.

1. Temperature and strain dependence of the power level and frequency of spontaneous Brillouin scattering in optical fibers

2. Raman-Assisted Brillouin Distributed Temperature Sensor Over 100 km Featuring 2 m Resolution and 1.2 $^{\circ}$C Uncertainty

3. 100km distributed fiber optic sensor based on the coherent detection of Brillouin backscatter, with a spatial resolution of 10 m, enhanced using two stages of remotely pumped erbium-doped fiber combined with raman amplification;Cho,2006

4. Extending the Real Remoteness of Long-Range Brillouin Optical Time-Domain Fiber Analyzers