Proposal of Brillouin optical correlation-domain reflectometry (BOCDR)

Mizuno

2016

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Abstract:We study the optical wavelength dependence of the Brillouin gain spectrum for a silica single-mode fiber in the range from 1511 to 1555 nm using a measurement setup containing an erbium-doped fiber amplifier (EDFA) in the Brillouin pump path. The Brillouin peak power and linewidth are clearly dependent on the pump wavelength, the trends of which correspond well with the wavelength dependence of the EDFA gain. This result suggests that we need to consider the unique wavelength dependence of the EDFA gain to practically obtain a higher Brillouin peak power and narrower linewidth at the telecommunication wavelength.

Section: Introductionmentioning

confidence: 99%

Observation of Brillouin gain spectrum in optical fibers in telecommunication band: Effect of pump wavelength

Lee

Mizuno

2016

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“…Researchers have developed various types of sensing schemes, including time- [1,2], frequency- [3], and correlation-domain [4,5] techniques. Conventionally, their sensing heads were composed of glass fibers (especially standard silica glass fibers), resulting in fiber fracture at relatively small strains of ≲3%.…”

Section: Introductionmentioning

confidence: 99%

Measurement of large-strain dependence of optical propagation loss in perfluorinated polymer fibers for use in seismic diagnosis

Ujihara

Tabaru

et al. 2014

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Brillouin scattering in perfluorinated graded-index (PFGI-) polymer optical fibers (POFs) has been extensively studied for structural health monitoring, including seismic diagnosis. Here, we measure the propagation loss of PFGI-POFs at telecom wavelengths as a function of large applied strain (up to 100%) at three optical powers and as a function of strain rate at a constant optical power. The strain dependence of the propagation loss in PFGI-POFs is found to be independent of the incident power (<27 dBm) and the strain rate (<500% s −1 ), indicating that PFGI-POF-based Brillouin sensors are potentially applicable to actual seismic monitoring.

“…Various sensing schemes have been developed, such as time-, frequency-, and correlation-domain techniques [4,5,6,7,8,9,10,11]. Among them, time-domain techniques have been reported to have the widest measurement range, which is limited by optical attenuation.…”

Section: Introductionmentioning

confidence: 99%

Brillouin signal amplification in pumped erbium-doped optical fiber

Ding

Mizuno

2014

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Amplification of Brillouin scattering signal extends the measurement range and improves the signal-to-noise ratio of fiber-optic distributed Brillouin sensors. Here, we investigate the amplification effect of a 980-nm pump laser on Brillouin gain spectrum in an erbium-doped optical fiber. The Brillouin-scattered Stokes power increased exponentially with increasing pump power, exhibiting approximately 87% enhancement at 252 mW compared with the Stokes power obtained without the pump. This suggests that a more significant increase in the Stokes power is feasible with a higher-power 980-nm pump laser.