Recent Progress Towards Centimetric Spatial Resolution in Distributed Fibre Sensing
Luc Thévenaz, Stella Foaleng-Mafang, Kang-Yong Song, Sanghoon Chin, Jean-Charles Beugnot, Nikolay Primerov, Moshe Tur, EPFL Swiss Federal Institute of Technology (Switzerland)
Optical fibre sensors based on stimulated Brillouin scattering have now clearly demonstrated their excellent capability for long-range distributed strain and temperature measurements. The fibre is used as sensing element and a value for temperature and/or strain can be obtained from any point along the fibre. While classical configurations have practically a spatial resolution limited by the phonon lifetime to 1 meter, novel approaches have been demonstrated these past years that can overcome this limit. This can be achieved either by the prior activation of the acoustic wave by a long lasting pre-pumping signal, leading to the optimized configuration using Brillouin echoes, or by probing a classically generated steady acoustic wave using a ultra-short pulse propagating in the orthogonal polarization of a highly birefringent fibre. These novel configurations can offer spatial resolutions in the centimetre range, while preserving the full accuracy on the determination of temperature and strain.