Luca Palmieri scite author profile

Optical fiber sensors offer unprecedented features, the most unique of which is the ability of monitoring variations of the observed physical field with spatial continuity along the fiber. These distributed optical fiber sensors are based on the scattering processes that originate from the interaction between light and matter. Among the three different scattering processes that may take place in a fiber—namely Rayleigh, Raman and Brillouin scattering, this paper focuses on Rayleigh-based distributed optical fiber sensors. For a given optical frequency, Rayleigh-based sensors exploit the three main properties of light: intensity, phase and polarization. All these sensing mechanisms are reviewed, along with basic principles, main acquisition techniques and fields of application. Emphasis, however, will be put on polarization-based distributed optical fiber sensors. While they currently represent a niche, they offer promising unique features worth being considered in greater detail

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Distributed optical fibre sensing for early detection of shallow landslides triggering

Schenato

Palmieri

Camporese

et al. 2017

Sci Rep

108

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A distributed optical fibre sensing system is used to measure landslide-induced strains on an optical fibre buried in a large scale physical model of a slope. The fibre sensing cable is deployed at the predefined failure surface and interrogated by means of optical frequency domain reflectometry. The strain evolution is measured with centimetre spatial resolution until the occurrence of the slope failure. Standard legacy sensors measuring soil moisture and pore water pressure are installed at different depths and positions along the slope for comparison and validation. The evolution of the strain field is related to landslide dynamics with unprecedented resolution and insight. In fact, the results of the experiment clearly identify several phases within the evolution of the landslide and show that optical fibres can detect precursory signs of failure well before the collapse, paving the way for the development of more effective early warning systems.

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Optimized spinning design for low PMD fibers: an analytical approach

Galtarossa

Palmieri

Pizzinat

2001

J. Lightwave Technol.

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Polarization mode dispersion characterization of single-mode optical fiber using backscattering technique

Corsi

Galtarossa

Palmieri

1998

J. Lightwave Technol.

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This paper presents a completely new method able to characterize polarization mode dispersion (PMD) properties of randomly birefringent single-mode fibers, using polarization sensitive backscattering technique. We show analytical relationships between evolution of polarization state of backscattered signal with respect to state of polarization of forward one. Our technique allows one to measure differential group delay, beat length, and correlation length at the same time over long single-mode fibers using only one fiber end. Experimental data fit very well with numerical results, confirming the capability of our technique for fast routine characterization of PMD during cabling, before and after installation

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Statistical characterization of fiber random birefringence

et al. 2000

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Luca Palmieri

Distributed Optical Fiber Sensing Based on Rayleigh Scattering

Distributed optical fibre sensing for early detection of shallow landslides triggering

Optimized spinning design for low PMD fibers: an analytical approach

Polarization mode dispersion characterization of single-mode optical fiber using backscattering technique

Statistical characterization of fiber random birefringence

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