Tuning of the Brillouin scattering properties in microstructured optical fibers by liquid infiltration

Author:

Catalano Ester,Vallifuoco Raffaele,Zeni Luigi,Dufour Alexis,Marin Emmanuel,Girard Sylvain,Minardo Aldo

Abstract

AbstractWe demonstrate the possibility to modify the Brillouin scattering properties of a microstructured pure-silica core optical fiber, by infiltrating a liquid inside its holes. In particular, we show that the dependence of the Brillouin frequency shift (BFS) on the temperature can be reduced by infiltration, owing to the large negative thermo-optic coefficient of the liquid. Infiltrating a chloroform-acetonitrile mixture with a refractive index of 1.365 inside the holes of a suspended-core fiber with a core diameter of 3 µm, the BFS temperature sensing coefficient is reduced by ≈ 21%, while the strain sensitivity remains almost unaltered. Besides tuning the temperature sensing coefficient, the proposed platform could find other applications in Brillouin sensing, such as distributed electrical and magnetic measurements, or enhanced Brillouin gain in fibers infiltrated with high nonlinear optical media.

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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