Low-coherence grating characterisation scheme
Low-coherence grating characterisation scheme
Optical fibre gratings are being produced for an increasing number of applications. With the advances in grating fabrication technology, advances in grating characterisation schemes are required. A few years ago, only the reflectivity, bandwidth and central wavelength of gratings were needed. Today, applications such as dispersion compensation and distributed sensing require the distributed characteristics of a grating, namely the time delay and reflectivity as a function of wavelength. Until recently, distributed grating measurements have been made using a tunable narrowband laser source. The wavelength to be measured was selected by tuning the laser. The reflectivity was obtained from the returning optical power level and the time delay of the chosen wavelength was obtained using phase measurements. The phase measurements were either optically coherent, or optically incoherent (electrically coherent).
These systems only correctly characterise gratings having monotonic wavelength profiles. Their temporal resolution is determined by the local chirp of the grating and the grating wavelength. For dispersion compensation, gratings with a linear, monotonic chirp are required and thus the laser characterisation scheme at first sight appears suitable.
We recently demonstrated a novel grating characterisation system using a broadband source. Low-coherence interferometry selected the time delay to be interrogated and a tunable filter measured the local Bragg wavelength. This system has characterised gratings of arbitrary (including non-monotonic) wavelength profiles.
The latest results of our low-coherence interrogation system are presented together with results from a theoretical analysis of its performance. The ultimate performance characteristics are predicted and examined experimentally.
6/1-6/6
Volanthen, M.
594a50e8-d66e-4b9f-a51d-663db55afdcf
Geiger, H.
ed078c74-a1f0-4816-aee5-6adec67b9ed3
Dakin, J.P.
04891b9b-5fb5-4245-879e-9e7361adf904
1997
Volanthen, M.
594a50e8-d66e-4b9f-a51d-663db55afdcf
Geiger, H.
ed078c74-a1f0-4816-aee5-6adec67b9ed3
Dakin, J.P.
04891b9b-5fb5-4245-879e-9e7361adf904
Volanthen, M., Geiger, H. and Dakin, J.P.
(1997)
Low-coherence grating characterisation scheme.
In Proceedings of IEE Colloquium on Optical Fibre Gratings.
IEEE.
.
(doi:10.1049/ic:19970240).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Optical fibre gratings are being produced for an increasing number of applications. With the advances in grating fabrication technology, advances in grating characterisation schemes are required. A few years ago, only the reflectivity, bandwidth and central wavelength of gratings were needed. Today, applications such as dispersion compensation and distributed sensing require the distributed characteristics of a grating, namely the time delay and reflectivity as a function of wavelength. Until recently, distributed grating measurements have been made using a tunable narrowband laser source. The wavelength to be measured was selected by tuning the laser. The reflectivity was obtained from the returning optical power level and the time delay of the chosen wavelength was obtained using phase measurements. The phase measurements were either optically coherent, or optically incoherent (electrically coherent).
These systems only correctly characterise gratings having monotonic wavelength profiles. Their temporal resolution is determined by the local chirp of the grating and the grating wavelength. For dispersion compensation, gratings with a linear, monotonic chirp are required and thus the laser characterisation scheme at first sight appears suitable.
We recently demonstrated a novel grating characterisation system using a broadband source. Low-coherence interferometry selected the time delay to be interrogated and a tunable filter measured the local Bragg wavelength. This system has characterised gratings of arbitrary (including non-monotonic) wavelength profiles.
The latest results of our low-coherence interrogation system are presented together with results from a theoretical analysis of its performance. The ultimate performance characteristics are predicted and examined experimentally.
This record has no associated files available for download.
More information
Published date: 1997
Venue - Dates:
IEE Colloquium on Optical Fibre Gratings, London, United Kingdom, 1997-02-07
Identifiers
Local EPrints ID: 76774
URI: http://eprints.soton.ac.uk/id/eprint/76774
PURE UUID: 2f756d95-abde-4ccf-8b36-ec455d562904
Catalogue record
Date deposited: 11 Mar 2010
Last modified: 13 Mar 2024 23:36
Export record
Altmetrics
Contributors
Author:
M. Volanthen
Author:
H. Geiger
Author:
J.P. Dakin
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics