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Proceedings Paper

Kilometer length low loss enhanced back scattering fiber for distributed sensing
Author(s): Paul S. Westbrook; Kenneth S. Feder; Roy M. Ortiz; Tristan Kremp; Eric M. Monberg; Hongchao Wu; Debra A. Simoff; Scott Shenk
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Paper Abstract

We demonstrate a 1km long optical fiber with continuous grating enhanced back scattering and attenuation close to standard single mode fiber. Scattering was observed to be more than 10dB above the Rayleigh back scattering of the optical fiber over a 10nm bandwidth between 1542 and 1552nm. The fiber attenuation was estimated to be 0.4dB/km. Our result was enabled through the fabrication of a standard single mode fiber with a UV transparent coating and reel to reel continuous UV grating inscription over more than 1km. We anticipate that enhanced scattering fiber will have impact in many sensor systems that rely on optical back scatter, including distributed acoustic sensing, security applications and structural health monitoring.

Paper Details

Date Published: 8 June 2017
PDF: 4 pages
Proc. SPIE 10323, 25th International Conference on Optical Fiber Sensors, 103239Q (8 June 2017); doi: 10.1117/12.2276357
Show Author Affiliations
Paul S. Westbrook, OFS Fitel LLC (United States)
Kenneth S. Feder, OFS Fitel LLC (United States)
Roy M. Ortiz, OFS Fitel LLC (United States)
Tristan Kremp, OFS Fitel LLC (United States)
Eric M. Monberg, OFS Fitel LLC (United States)
Hongchao Wu, OFS Fitel LLC (United States)
Debra A. Simoff, OFS Fitel LLC (United States)
Scott Shenk, OFS Fitel LLC (United States)


Published in SPIE Proceedings Vol. 10323:
25th International Conference on Optical Fiber Sensors
Youngjoo Chung; Wei Jin; Byoungho Lee; John Canning; Kentaro Nakamura; Libo Yuan, Editor(s)

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