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High accuracy measurement of Poisson’s ratio of optical fibers and its temperature dependence using forward-stimulated Brillouin scattering

L. A. Sánchez, A. Díez, J. L. Cruz, M. V. Andrés

2021Optics Express43 citationsDOIOpen Access PDF

Abstract

Transverse acoustic mode resonances enable a high accuracy determination of Poisson's ratio and elastic properties of optical fibers. An all-optical pump and probe technique is used for efficient excitation and accurate characterization of both, radial and torsional-radial acoustic resonances of optical fibers. Simple and precise algebraic expressions for the frequencies of high order acoustic resonances are derived, enabling a rigorous analysis of the experimental data using standard least squares fitting. Following this approach, the determination of Poisson's ratio does not require the measurement of any physical length, but only frequency measurements are required. An accuracy better than 1 ‰ is achieved. The dependence of the fiber Poisson's ratio with temperature is also determined experimentally.

Topics & Concepts

OpticsBrillouin scatteringMaterials scienceOptical fiberScatteringTransverse planeExcitationRayleigh scatteringLight scatteringDoppler effectRefractive indexFiberTemperature measurementAccuracy and precisionSingle-mode optical fiberRaman scatteringPhysicsFiber optic sensorOptical pumpingAspect ratio (aeronautics)Attenuation coefficientForward scatterMeasure (data warehouse)Figure of meritAdvanced Fiber Optic SensorsMechanical and Optical ResonatorsPhotonic Crystal and Fiber Optics