Pump-power-independent double slope-assisted distributed and fast Brillouin fiber-optic sensor

Avi Motil; Orr Danon; Yair Peled; Moshe Tur

doi:10.1109/LPT.2014.2302833

Pump-power-independent double slope-assisted distributed and fast Brillouin fiber-optic sensor

Avi Motil, Orr Danon, Yair Peled, Moshe Tur

School of Electrical Engineering

Tel Aviv University

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

77 Scopus citations

Abstract

A small modification of the fast and distributed slope-assisted Brillouin time domain analysis (SA-BOTDA) method allows it to easily implement pump-power independent measurements of strain and/or temperature, using the ratio between readings taken on both slopes of the Brillouin gain spectrum. Employing this new double SA-BOTDA measurement technique, fast (∼ 100 Hz at ∼ 1-kHz effective sampling rate) strain measurements are shown to be immune to pump pulse power variations as large as 6 dB. At the expense of halving the sampling rate, this technique still maintains all the benefits of its SA-BOTDA predecessor. In particular, its ability to handle (Brillouin) longitudinally inhomogeneous fibers is demonstrated.

Original language	English
Article number	6725651
Pages (from-to)	797-800
Number of pages	4
Journal	IEEE Photonics Technology Letters
Volume	26
Issue number	8
DOIs	https://doi.org/10.1109/LPT.2014.2302833
State	Published - 15 Apr 2014

Keywords

Brillouin scattering
Optical fiber sensors
nonlinear optics

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10.1109/LPT.2014.2302833

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abstract = "A small modification of the fast and distributed slope-assisted Brillouin time domain analysis (SA-BOTDA) method allows it to easily implement pump-power independent measurements of strain and/or temperature, using the ratio between readings taken on both slopes of the Brillouin gain spectrum. Employing this new double SA-BOTDA measurement technique, fast (∼ 100 Hz at ∼ 1-kHz effective sampling rate) strain measurements are shown to be immune to pump pulse power variations as large as 6 dB. At the expense of halving the sampling rate, this technique still maintains all the benefits of its SA-BOTDA predecessor. In particular, its ability to handle (Brillouin) longitudinally inhomogeneous fibers is demonstrated.",

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AB - A small modification of the fast and distributed slope-assisted Brillouin time domain analysis (SA-BOTDA) method allows it to easily implement pump-power independent measurements of strain and/or temperature, using the ratio between readings taken on both slopes of the Brillouin gain spectrum. Employing this new double SA-BOTDA measurement technique, fast (∼ 100 Hz at ∼ 1-kHz effective sampling rate) strain measurements are shown to be immune to pump pulse power variations as large as 6 dB. At the expense of halving the sampling rate, this technique still maintains all the benefits of its SA-BOTDA predecessor. In particular, its ability to handle (Brillouin) longitudinally inhomogeneous fibers is demonstrated.

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Pump-power-independent double slope-assisted distributed and fast Brillouin fiber-optic sensor

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