Low-loss random fiber gratings made with an fs-IR laser for distributed fiber sensing

From National Research Council Canada

DOI	Resolve DOI: https://doi.org/10.1109/JLT.2019.2917389
Author	Search for: Lu, Ping¹ORCID identifier: https://orcid.org/0000-0002-8610-4032; Search for: Mihailov, Stephen J.¹ORCID identifier: https://orcid.org/0000-0002-6144-0937; Search for: Coulas, David¹; Search for: Ding, Huimin¹; Search for: Bao, Xiaoyi ORCID identifier: https://orcid.org/0000-0002-5525-0694
Affiliation	National Research Council of Canada. Security and Disruptive Technologies
Format	Text, Article
Subject	fiber optics sensors; gratings; rayleigh; scattering; ltrafast lasers
Abstract	By using the plane-by-plane grating inscription method with an fs-IR laser, random fiber gratings with low laser-induced loss were fabricated in SMF-28 fiber for distributed temperature sensing. Compared to conventional random gratings having broadband backscattering enhancement, the demonstrated random fiber grating has a well defined narrower bandwidth of backscattering enhancement, higher laser-induced backscattering level, and lower laser-induced loss, which are critical for long-haul distributed fiber sensor systems with high measurement accuracy. Experimental results showed that by using fabricated random fiber gratings along with the technique of optical frequency-domain reflectometry, a distributed temperature fiber sensor could be realized having a gauge length of 10 mm, standard deviation of temperature measurement as low as 0.00085 °C, and laser-induced loss of 0.08 dB/m.
Publication date	2019-05-16
Publisher	IEEE
In	Journal of Lightwave Technology 37, no. 18: 4697–4702.
Language	English
Peer reviewed	Yes
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Record identifier	436e82de-47a9-4455-b002-1d53d05e6083
Record created	2021-03-19
Record modified	2021-03-19

Date modified:: 2024-11-13