2016
DOI: 10.1364/oe.24.013121
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Single-shot distributed temperature and strain tracking using direct detection phase-sensitive OTDR with chirped pulses

Abstract: So far, the optical pulses used in phase-sensitive OTDR (ΦOTDR) were typically engineered so as to have a constant phase along the pulse. In this work, it is demonstrated that by acting on the phase profile of the optical pulses, it is possible to introduce important conceptual and practical changes to the traditional ΦOTDR operation, thus opening a door for new possibilities which are yet to be explored. Using a ΦOTDR with linearly chirped pulses and direct detection, the distributed measurement of temperatur… Show more

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Cited by 300 publications
(230 citation statements)
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“…1. It is based on a chirped-pulse ΦOTDR scheme [3]- [5] but including a continuous wave (CW) Raman pump. The Raman pump is applied at the two ends of the sensing fiber aimed at compensating the energy loss of both the probe pulse and the reflected trace along the fiber, and consequently achieving larger measurement ranges.…”
Section: Methodsmentioning
confidence: 99%
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“…1. It is based on a chirped-pulse ΦOTDR scheme [3]- [5] but including a continuous wave (CW) Raman pump. The Raman pump is applied at the two ends of the sensing fiber aimed at compensating the energy loss of both the probe pulse and the reflected trace along the fiber, and consequently achieving larger measurement ranges.…”
Section: Methodsmentioning
confidence: 99%
“…The 2.5 ns rise/fall times and extinction ratio (ER) of >50 dB of the SOA allow us to generate 100 ns-width quasi-square-shaped pulses with high ER. This leads to a spatial resolution of 10 m in the phasesensitive reflectometer scheme [1], [3]. The ramp signal is controlled so that the resulting linearly chirped pulse has a total spectral content of 630 MHz.…”
Section: Methodsmentioning
confidence: 99%
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