Comparison of measured and predicted bandwidth of graded-index multimode fibres
Comparison of measured and predicted bandwidth of graded-index multimode fibres
Measurements of pulse spreading in three graded index fibers have been performed over an extensive range of wavelengths, including regions in which the index profiles become optimal and the bandwidths correspondingly high. The refractive index distributions and profile dispersion parameter have been measured and used in a ray-tracing algorithm in order to predict bandwidths. Comparison reveals that averaging processes on the index data are usually necessary to account for noncircularity of the fiber and small variations in the deduced profile caused by the wavelength dependence of the near-field intensity distribution. Results obtained by this means usually tend to slightly underestimate the true fiber bandwidth, while alpha-profile predictions always result in overestimates by about one order of magnitude. Remaining discrepancies between measured and predicted bandwidths are attributed to small variations of the index profiles along the fiber length.
825-838
Hartog, A.H.
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Adams, M.J.
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Sladen, F.M.E.
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Payne, D.N.
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Ankiewicz, A.
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1982
Hartog, A.H.
086d3839-ad46-4490-997e-3fded0a9b7f1
Adams, M.J.
4a9df701-bc4d-492e-a54e-de6d526d3083
Sladen, F.M.E.
d444502d-d1bd-4e85-9743-13568c170277
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d
Ankiewicz, A.
d962a99e-d684-4cd4-a135-29cc5c605d61
Hartog, A.H., Adams, M.J., Sladen, F.M.E., Payne, D.N. and Ankiewicz, A.
(1982)
Comparison of measured and predicted bandwidth of graded-index multimode fibres.
IEEE Journal of Quantum Electronics, 18 (5), .
(doi:10.1109/JQE.1982.1071618).
Abstract
Measurements of pulse spreading in three graded index fibers have been performed over an extensive range of wavelengths, including regions in which the index profiles become optimal and the bandwidths correspondingly high. The refractive index distributions and profile dispersion parameter have been measured and used in a ray-tracing algorithm in order to predict bandwidths. Comparison reveals that averaging processes on the index data are usually necessary to account for noncircularity of the fiber and small variations in the deduced profile caused by the wavelength dependence of the near-field intensity distribution. Results obtained by this means usually tend to slightly underestimate the true fiber bandwidth, while alpha-profile predictions always result in overestimates by about one order of magnitude. Remaining discrepancies between measured and predicted bandwidths are attributed to small variations of the index profiles along the fiber length.
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Published date: 1982
Identifiers
Local EPrints ID: 78642
URI: http://eprints.soton.ac.uk/id/eprint/78642
ISSN: 0018-9197
PURE UUID: de4d0c35-8e06-4f0a-ab1a-64db33c38e40
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 00:19
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Author:
A.H. Hartog
Author:
M.J. Adams
Author:
F.M.E. Sladen
Author:
A. Ankiewicz
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