Enhanced bandwidth distributed acoustic sensing using a frequency multiplexed pulse train and micro-machined point reflector fiber

In this Letter, we present an enhanced bandwidth distributed acoustic sensor (DAS) that uses a frequency multiplexed interrogation system to probe a micro-machined point reflector fiber. The fiber contains a series of discrete point reflectors with reflectance as high as -48 dB, while the frequency...

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Published in:Optics letters 2022-02, Vol.47 (3), p.529-532
Main Authors: Ogden, Hannah M, Beresna, Martynas, Lee, Timothy, Redding, Brandon
Format: Article
Language:English
Subjects:
Bandwidths
Interrogation
Micromachining
Multiplexing
Noise
Pulse repetition rate
Reflectors
Spatial resolution
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cited_by cdi_FETCH-LOGICAL-c348t-ce17665b032cc94817838e1fe005df2b65384c48f1ee3d36cf6d803a717b95803
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container_title Optics letters
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creator Ogden, Hannah M
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description In this Letter, we present an enhanced bandwidth distributed acoustic sensor (DAS) that uses a frequency multiplexed interrogation system to probe a micro-machined point reflector fiber. The fiber contains a series of discrete point reflectors with reflectance as high as -48 dB, while the frequency multiplexed interrogator allows us to increase the effective pulse repetition rate by a factor of 10. Together, this enables a phase noise as low as -101 dB (re rad /Hz) for a 2.5 km fiber with 10 m spatial resolution, corresponding to a strain noise of 0.095 /Hz. This scheme also enables a 10-fold increase in the sensor bandwidth without introducing noise due to interference fading. Finally, we demonstrate sensing at ranges up to 10 km using a fiber containing 1000 point reflectors, illustrating the scalability of this approach.
doi_str_mv 10.1364/OL.449223
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subjects Bandwidths
Interrogation
Micromachining
Multiplexing
Noise
Pulse repetition rate
Reflectors
Spatial resolution
title Enhanced bandwidth distributed acoustic sensing using a frequency multiplexed pulse train and micro-machined point reflector fiber
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