Abstract
M.Ing.
Bragg gratings written in polymer optical fibres are much more sensitive to temperature and strain measurements than silica fibre with a lower Young's modules and higher temperature coefficient. The good biocompatibility of polymer fibres makes them ideal medical sensors for in vivo strain and temperature measurements as well as excellent chemical sensors that can easily be doped with organic compounds.
Most of the Bragg gratings in polymer optical fibres are inscribed around 1550 nm where the attenuation is as large as 1 dB/em. Grating fabrication was investigated at 980 nm where the attenuation was discovered to be optimal (less than 0.1 dB/em). The polymer optical fibre was
spliced to silica optical fibre through butt-coupling and affixed with optical adhesive to produce
transmission loss of between 7 and 25 dB (at 980 nm).
Preliminary results show that it may be possible to create fibre Bragg gratings in polymer optical
fibre at 980 nm. Gratings inscribed in fibre with an energy density of between 80 and 150 mJ/cm2
supplied by Paradigm Optics (MORFOP3) had a repeatability of 25%. With the fibres supplied by
Prof. Peng (PBzMA- PEMA- PMMA co-polymer) a success rate of more than 90% was achieved
when using energy densities around 70 mJ/cm2
• However, these gratings were weak and
disappeared within 48 hours. The strength of these gratings varied from grating to grating. The
reason of this instability is unknown and should be further investigated.
The temperature sensitivity of polymer optical fibre at 976 nm was found to be -100 ±17 pm;oc
corresponding with the reported value of -94 pm;oc at 976 nm.