Design on optical fiber methane sensing systems employing wavelength-scanning based differential absorption techniques

Shang Hui Xiao; Cai Jie Tang; Yi Jiang; Jun Tang

doi:10.3788/gzxb20124112.1479

Design on optical fiber methane sensing systems employing wavelength-scanning based differential absorption techniques

Shang Hui Xiao^*, Cai Jie Tang, Yi Jiang, Jun Tang

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Utilizing a super-luminescent diode (SLD) in 1330 nm band and a fiber Fabry-Perot tunable filter (FFP-TF), an optical fiber methane sensing system is experimentally demonstrated. The differential absorption technique and a reference method are employed: a reference channel is introduced to eliminate the fluctuation of light source spectrum, and the two wavelengths are acquired by tuning the FFP-TF. The influence of the light source, loss of leading fiber, and the filters' variations are all avoided. A minimum detectable methane concentration of 0.15% achieved.

Original language	English
Pages (from-to)	1479-1482
Number of pages	4
Journal	Guangzi Xuebao/Acta Photonica Sinica
Volume	41
Issue number	12
DOIs	https://doi.org/10.3788/gzxb20124112.1479
Publication status	Published - Dec 2012

Keywords

Differential absorption
Fiber Fabry-Perot tunable filter
Fiber optic sensor
Methane sensing

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title = "Design on optical fiber methane sensing systems employing wavelength-scanning based differential absorption techniques",

abstract = "Utilizing a super-luminescent diode (SLD) in 1330 nm band and a fiber Fabry-Perot tunable filter (FFP-TF), an optical fiber methane sensing system is experimentally demonstrated. The differential absorption technique and a reference method are employed: a reference channel is introduced to eliminate the fluctuation of light source spectrum, and the two wavelengths are acquired by tuning the FFP-TF. The influence of the light source, loss of leading fiber, and the filters' variations are all avoided. A minimum detectable methane concentration of 0.15% achieved.",

keywords = "Differential absorption, Fiber Fabry-Perot tunable filter, Fiber optic sensor, Methane sensing",

author = "Xiao, {Shang Hui} and Tang, {Cai Jie} and Yi Jiang and Jun Tang",

year = "2012",

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doi = "10.3788/gzxb20124112.1479",

language = "English",

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journal = "Guangzi Xuebao/Acta Photonica Sinica",

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T1 - Design on optical fiber methane sensing systems employing wavelength-scanning based differential absorption techniques

AU - Xiao, Shang Hui

AU - Tang, Cai Jie

AU - Jiang, Yi

AU - Tang, Jun

PY - 2012/12

Y1 - 2012/12

N2 - Utilizing a super-luminescent diode (SLD) in 1330 nm band and a fiber Fabry-Perot tunable filter (FFP-TF), an optical fiber methane sensing system is experimentally demonstrated. The differential absorption technique and a reference method are employed: a reference channel is introduced to eliminate the fluctuation of light source spectrum, and the two wavelengths are acquired by tuning the FFP-TF. The influence of the light source, loss of leading fiber, and the filters' variations are all avoided. A minimum detectable methane concentration of 0.15% achieved.

AB - Utilizing a super-luminescent diode (SLD) in 1330 nm band and a fiber Fabry-Perot tunable filter (FFP-TF), an optical fiber methane sensing system is experimentally demonstrated. The differential absorption technique and a reference method are employed: a reference channel is introduced to eliminate the fluctuation of light source spectrum, and the two wavelengths are acquired by tuning the FFP-TF. The influence of the light source, loss of leading fiber, and the filters' variations are all avoided. A minimum detectable methane concentration of 0.15% achieved.

KW - Differential absorption

KW - Fiber Fabry-Perot tunable filter

KW - Fiber optic sensor

KW - Methane sensing

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JO - Guangzi Xuebao/Acta Photonica Sinica

JF - Guangzi Xuebao/Acta Photonica Sinica

IS - 12

ER -

Design on optical fiber methane sensing systems employing wavelength-scanning based differential absorption techniques

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