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Strength and Reliability of Metal-Coated Optical Fibers at High Temperatures

Published online by Cambridge University Press:  10 February 2011

A. S. Biriukov ,
V. A. Bogatyrjov ,
V. F. Lebedev ,
A. A. Sysolyatin  and
A. G. Khitun
A. S. Biriukov
Affiliation:
Fiber Optics Research Center at General Physics Institute of the Russian Academy of Sciences, 38 Vavilov street, Moscow, Russia, 117942, bogat@fo.gpi.ac.ru
V. A. Bogatyrjov
Affiliation:
Fiber Optics Research Center at General Physics Institute of the Russian Academy of Sciences, 38 Vavilov street, Moscow, Russia, 117942, bogat@fo.gpi.ac.ru
V. F. Lebedev
Affiliation:
Fiber Optics Research Center at General Physics Institute of the Russian Academy of Sciences, 38 Vavilov street, Moscow, Russia, 117942, bogat@fo.gpi.ac.ru
A. A. Sysolyatin
Affiliation:
Fiber Optics Research Center at General Physics Institute of the Russian Academy of Sciences, 38 Vavilov street, Moscow, Russia, 117942, bogat@fo.gpi.ac.ru
A. G. Khitun
Affiliation:
Fiber Optics Research Center at General Physics Institute of the Russian Academy of Sciences, 38 Vavilov street, Moscow, Russia, 117942, bogat@fo.gpi.ac.ru
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Abstract

Hermetically metal coated fibers are candidates for applications at high temperatures. To date, various metals with melting point up to 1400 °C have been used to coat fibers by the freezing technique. However, the major problems consist of ensuring mechanical reliability and acceptable optical losses in metal coated fibers at high temperatures. We present an experimental study of the temperature effects at 20 – 1050 °C on the performance of optical fibers with copper coating. Specific fiber degradation mechanism have been revealed

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 531: Symposium DD – Reliabilty of Photonics Materials & Structures , 1998 , 297
Copyright
Copyright © Materials Research Society 1998

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References

1. Bogatyrjov, V.A., Dianov, E.M., Rumjantsev, S.D., Makarenko, A.Y., Semjonov, S.L. and Sysoliatin, A.A., Sov. Lightwave Commun. V. 1, 227234, Printed in UK, 1991.Google Scholar
2. Simpkins, P., Kurkjian, C.R. and Schroeder, C.M.. Electronic Letters 27t1h April Vol.31, No. 9 1995,Google Scholar
3. Bogatyrjov, V.A., Rumyantsev, S.D. and Kurkjian, C.R., Sov.Lightwave Commun. Vol.2, p.339345, Printed in UK, 1992.Google Scholar
4. Standage, A.E. and Gani, M.S.. JAm. Ceram. Soc. 1967. V. 50. N 2. p. 101105.Google Scholar
5. Bogatyrjov, V.A., Dianov, E.M., Rumyantsev, S.D. and Sysoliatin, A.A. OFC 93, Technical Digest, Vol.4, p.78, 1993.Google Scholar
6. Bogatyrjov, V.A., Dianov, E.M., Biriukov, A.S., Sysoliatin, A.A., Voronov, V.V., Khitun, A.G., Do, Mun Hyun and Kim, Jin Han, OFC' 97, Technical Digest, Vol.6, p.182183, 1997.Google Scholar