@inproceedings{d1a32890c70c461b89080310264db5d7,
title = "Fiber Bragg Gratings in Microstructured Optical Fibers for Stress Monitoring",
abstract = "Combining the functionalities of fiber Bragg gratings (FBGs) and microstructured optical fibers (MOFs) offers promising technological perspectives in the field of optical fiber sensors. Indeed, MOFs could overcome some of the limitations of FBGs in conventional fibers for sensor applications. The added value of MOFs stems from the ability to design an optical fiber in which an FBG acts as a sensor with a selective sensitivity, e.g. a sensor that is sensitive to directional strain but not to temperature. For this purpose we use a MOF with a phase modal birefringence on the order of 8*10-3. A FBG in this MOF yields two Bragg peak wavelengths, with a wavelength separation that depends on the phase modal birefringence of the MOF. We characterize these FBGs for transversal loads on a bare fiber and compare the results with simulated sensitivities. Then, we embed the sensor in a composite coupon and measure the of the Bragg peak wavelengths as a function of the applied transversal pressure on the composite material. This allows drawing conclusions on the advantages of FBGs in MOFs for sensing applications.",
keywords = "no keyword",
author = "Thomas Geernaert and G. Luyckx and E. Voet and Tomasz Nasilowski and M. Becker and H. Bartelt and W. Urbanczyk and J. Wojcik and {De Waele}, W. and J. Degrieck and Francis Berghmans and Hugo Thienpont",
year = "2009",
language = "English",
isbn = "9780819476319",
series = "Proceedings of SPIE",
publisher = "SPIE",
booktitle = "Photonic Crystal Fibers III",
address = "United States",
note = "SPIE: Photonic Crystal Fibers III ; Conference date: 22-04-2009 Through 23-04-2009",
}