Range-resolved signal processing for fibre segment interferometry applied to dynamic long-gauge length strain sensing
Date
2015-11
Supervisor/s
Journal Title
Journal ISSN
Volume Title
Publisher
SPIE
Department
Type
Article
ISSN
Format
Free to read from
Citation
Thomas Kissinger ; Ricardo Correia ; Thomas O. H. Charrett ; Stephen W. James and Ralph P. Tatam. Range-resolved signal processing for fibre segment interferometry applied to dynamic long-gauge length strain sensing. Proc. SPIE 9634, 24th International Conference on Optical Fibre Sensors, 96341Q, September 28, 2015.
Abstract
A range-resolved interferometric signal processing technique using sinusoidal optical frequency modulation is applied to fibre segment interferometry. Here, six optical fibre segments of gauge length 12.5 cm are used as interferometric strain sensors and are formed between seven weak, broadband fibre Bragg gratings, acting as in-fibre partial reflectors. In a very simple and cost-effective optical setup using injection current modulation of a laser diode source, interferometric measurement of acoustic wave propagation in a metal rod is used to demonstrate the capabilities of the technique.
Description
Software Description
Software Language
Github
Keywords
Interferometry, Fibre Strain Sensing, Signal Processing, Fibre Segment Interferometry