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A Determination of the Initial Level of the Brillouin Frequency Shift in Optical Fibers of Different Kinds

Published date:Apr 25 2018

Journal Title: KnE Energy

Issue title: VII International Conference on Photonics and Information Optics (PhIO)

Pages:379–387

DOI: 10.18502/ken.v3i3.2051

Authors:
Abstract:

A dependence of the hyper-acoustic wave velocity on characteristics of the optical fiber core is analyzed in this paper. The values of Brillouin frequency shifts for various types of optical fibers at room temperature and without longitudinal tensile force are presented. Having database of profiles of the Mandelstam – Brillouin backscattering spectrums for fibers of different kinds and manufacturers allow to classify the optical fibers in the optical cables and detect damaged sections of fiber optical communication line.

Keywords: optical fiber, strain, Brillouin frequency shift, Brillouin reflectometry, hyper-acoustic wave.

References:

[1] I. V. Bogachkov, N. I. Gorlov, “Experimental Examination of the Strain Characteristics of Optical Fibers”, IEEE 12th International Conference on Actual Problems of Electronic Instrument Engineering (APEIE–2014) Proceedings, Novosibirsk, 2014. – V. 1, pp. 223 – 227.


[2] I. V. Bogachkov, “Researching of Influence of the Strain Degree of Optical Fibers on the Brillouin Backscattering Characteristics”, International Siberian Conference on Control and Communications (SIBCON) – 2015, Omsk, 2015, pp. 1 – 6.


[3] I. V. Bogachkov, N. I. Gorlov, “Researches of the influence of temperature changes in optical fibers on the Brillouin backscattering spectrum”, IEEE 2016 13th International Conference on Actual Problems of Electronic Instrument Engineering Proceedings, 2016, V. 1, p. 1, pp. 157 – 161.


[4] В. G. Gorshkov, I. E. Gorbatov, Y. К. Dаnileiko, A. V. Sidоrin, “Luminescence, Scattering and Absorption of Light in Quartz Optical Fibers and Prospects of Their Use in Distributed Lightguide Sensors”, Quantum Electronics, 1990, V. 17, N. 3, pp. 345 – 350.


[5] I. V. Bogachkov, A. I. Trukhina, “Detection of sections with slightly changed optical characteristics in fiber optical communication lines”, International Siberian Conference on Control and Communications (SIBCON) – 2017, Astana, 2017. – pp. 1 – 6.


[6] X. Bao, L. Chen, “Recent Progress in Brillouin Scattering Based Fiber Sensors”, Sensors, 2011. V. 11, pp. 4152 – 4187.


[7] I. V. Bogachkov, “Researching of features of the Brillouin Backscattering Spectrum in Dispersion-Shifted Optical Fibers”, International Siberian Conference on Control and Communications (SIBCON) – 2016, Moscow, 2016, pp. 1 – 6.


[8] I. V. Bogachkov, “Experimental Researches of Brillouin Backscatter Spectrum in Non Zero Dispersion-Shifted Optical Fibers at Longitudinal Stretching Forces”, Dynamics of Systems, Mechanisms and Machines, Dynamics 2016 – Proceedings, Omsk, 2016, – pp. 1 – 5.


[9] BOTDR Measurement Techniques and Brillouin Backscatter Characteristics of Corning Single-Mode Optical Fibers // http://www.corning.com/media/worldwide/coc/documents/Fiber/RC- %20White%20Papers/WP-General/WP4259_01-15.pdf


[10] O. E. Kompaneets, A. I. Trukhina, I. V. Bogachkov, “Experimental Researches of Mandelstam – Brillouin Backscattering Features in “Panda” Optical Fiber”, Systems of Signal Synchronization, Generating and Processing in Telecommunications (SINKHROINFO-2017), Kazan, 2017, pp. 1 – 6.


[11] A. S. Smirnov, V. V. Burdin, A. S. Petukhov, I. R. Drozdov, Ya. S. Kuz’minykh, V. G. Besprozvannykh, Yu. A. Konstantinov, “Birefringence in anisotropic optical fibres studied by polarised light brillouin reflectometry”, Quantum Electronics, 2015, V. 45, N. 1, pp. 66 – 68.


[12] Y. H. Kim, K. Y. Song, “Characterization of Nonlinear Temperature Dependence of Brillouin Dynamic Grating Spectra in Polarization-Maintaining Fibers”, Journal of Lightwave Technology, 2015, V. 33, N. 23, pp. 4922 – 4927.


[13] A. I. Trukhina, I. V. Bogachkov, “Experimental Testing of the Mandelstam – Brillouin Scattering Features in the Erbium-Doped Optical Fiber”, Systems of Signal Synchronization, Generating and Processing in Telecommunications (SINKHROINFO- 2017), Kazan, 2017, pp. 1 – 6.


[14] I. V. Bogachkov, “Temperature Dependences of Mandelstam – Brillouin Backscatter Spectrum in Optical Fibers of Various Types”, Systems of Signal Synchronization, Generating and Processing in Telecommunications (SINKHROINFO-2017), Kazan, 2017, pp. 1 – 6.

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