Periodically tapered photonic crystal fibre based strain sensor fabricated by a CO2 laser technique

Gerald Farrell; Lin Bo; Chunying Guan; Yuliya Semenova; Pengfei Wang

doi:10.1117/12.2053926

2 May 2014 Periodically tapered photonic crystal fibre based strain sensor fabricated by a CO₂ laser technique

Gerald Farrell, Lin Bo, Chunying Guan, Yuliya Semenova, Pengfei Wang

Proceedings Volume 9128, Micro-structured and Specialty Optical Fibres III; 91280G (2014) https://doi.org/10.1117/12.2053926
Event: SPIE Photonics Europe, 2014, Brussels, Belgium

Abstract

A focused CO₂ laser beam has been previously used to successfully fabricate both symmetric and asymmetric long period fiber gratings which have been used for a variety of sensing applications. However fabrication by a CO₂ laser beam demands a time consuming laser scanning process which increases the difficulty and cost of fabrication. In this paper a fibre sensor based on a fibre heterostructure with a simple configuration consisting of a series of periodical tapers in a photonic crystal fibre (PCF) sandwiched between two singlemode fibres is proposed and investigated experimentally. The tapers are periodically fabricated along the PCF section using a CO₂ laser beam. The proposed fibre heterostructure can be used for strain sensing by measuring the wavelength blueshift of the multimode interference dip of the transmission spectrum as a function of strain. An average stain sensitivity of -68.4 pm/μ ε has been experimentally achieved over a microstrain range from 0 to 100 μ ε. Assuming in practice that the sensor is interrrogated with a ratiometric power measurement system, then the strain resolution is estimated to be better than 1.18×10^-2 microstrain. The mechanisms for refractive index modulation periodically tapered PCF under tensile strain measurements are complex but may be regarded as a combination of stress-relaxation and refractive index perturbations over the length of the tapered PCF induced by strain and by tapering. The proposed fibre strain sensor has the advantage of low temperature sensitivity (average 8.4 pm/°C) and an experimental demonstration of this reduced sensitivity is also presented. The proposed strain sensor benefits from simplicity of fabrication and achieves a competitive sensitivity compared with other existing fibre-optic sensors.

Citation Download Citation

Gerald Farrell, Lin Bo, Chunying Guan, Yuliya Semenova, and Pengfei Wang "Periodically tapered photonic crystal fibre based strain sensor fabricated by a CO₂ laser technique", Proc. SPIE 9128, Micro-structured and Specialty Optical Fibres III, 91280G (2 May 2014); https://doi.org/10.1117/12.2053926

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