DocumentCode
989252
Title
Increased attenuation in optical fibres caused by diffusion of molecular hydrogen at room temperature
Author
Beales, K.J. ; Cooper, Diana Marina ; Rush, J.D.
Author_Institution
British Telecom Research Laboratories, Ipswich, UK
Volume
19
Issue
22
fYear
1983
Firstpage
917
Lastpage
919
Abstract
A new set of absorption peaks has been observed at wave-lengths between 1.5 and 2.5 ¿m in silica-based optical fibres which have been exposed to hydrogen at room temperature. The largest peak, at 2.42 ¿m, is identified as being due to the fundamental molecular hydrogen vibrational absorption. Other peaks in the set are related to the fundamental with the same energy shifts as previously reported for the first overtone spectrum. The implications of both sets of peaks are quantified for the operating windows of optical fibre systems at 1.3 and 1.55 ¿m.
Keywords
diffusion in solids; hydrogen; light absorption; optical dispersion; optical fibres; silicon compounds; absorption peaks; attenuation; energy shifts; first overtone spectrum; molecular H2 diffusion; operating windows; optical fibres; room temperature; silica-based optical fibres; vibrational absorption;
fLanguage
English
Journal_Title
Electronics Letters
Publisher
iet
ISSN
0013-5194
Type
jour
DOI
10.1049/el:19830627
Filename
4248162
Link To Document