Abstract
With the increasing use of optical data links, it becomes essential to test for radiation vulnerability not only the transmission support - fiber and cable - but also fiber-end electro-optical components that could be exposed to hostile environment. Presently there is a significant number of radiation tests of optical fibers [1,2,3]. Here are only given a few results obtained on gradient index multimode fibers with and without phosphor. These data provide an important contribution to the improvement of all standard electro-optical pigtailed components working on the 1.3 {mu}m wavelength: light-emitting diodes (LED), injection-laser diode modules (LDM) and pin-photodiodes (PD). Multicomponent LDM behaviour under CO{sup 60} exposure was extensively tested. Hardened optical data links allow now to ensure medium data transmission rates on appreciable fiber - lengths despite medium steady - state gamma-ray exposure.
Citation Formats
Breuze, G, and Serre, J.
Gamma-ray vulnerability of light-emitting diodes injection-laser diodes and pin-photodiodes for 1.3 {mu}m wavelength-fiber optics.
France: N. p.,
1992.
Web.
Breuze, G, & Serre, J.
Gamma-ray vulnerability of light-emitting diodes injection-laser diodes and pin-photodiodes for 1.3 {mu}m wavelength-fiber optics.
France.
Breuze, G, and Serre, J.
1992.
"Gamma-ray vulnerability of light-emitting diodes injection-laser diodes and pin-photodiodes for 1.3 {mu}m wavelength-fiber optics."
France.
@misc{etde_10111404,
title = {Gamma-ray vulnerability of light-emitting diodes injection-laser diodes and pin-photodiodes for 1.3 {mu}m wavelength-fiber optics}
author = {Breuze, G, and Serre, J}
abstractNote = {With the increasing use of optical data links, it becomes essential to test for radiation vulnerability not only the transmission support - fiber and cable - but also fiber-end electro-optical components that could be exposed to hostile environment. Presently there is a significant number of radiation tests of optical fibers [1,2,3]. Here are only given a few results obtained on gradient index multimode fibers with and without phosphor. These data provide an important contribution to the improvement of all standard electro-optical pigtailed components working on the 1.3 {mu}m wavelength: light-emitting diodes (LED), injection-laser diode modules (LDM) and pin-photodiodes (PD). Multicomponent LDM behaviour under CO{sup 60} exposure was extensively tested. Hardened optical data links allow now to ensure medium data transmission rates on appreciable fiber - lengths despite medium steady - state gamma-ray exposure.}
place = {France}
year = {1992}
month = {Dec}
}
title = {Gamma-ray vulnerability of light-emitting diodes injection-laser diodes and pin-photodiodes for 1.3 {mu}m wavelength-fiber optics}
author = {Breuze, G, and Serre, J}
abstractNote = {With the increasing use of optical data links, it becomes essential to test for radiation vulnerability not only the transmission support - fiber and cable - but also fiber-end electro-optical components that could be exposed to hostile environment. Presently there is a significant number of radiation tests of optical fibers [1,2,3]. Here are only given a few results obtained on gradient index multimode fibers with and without phosphor. These data provide an important contribution to the improvement of all standard electro-optical pigtailed components working on the 1.3 {mu}m wavelength: light-emitting diodes (LED), injection-laser diode modules (LDM) and pin-photodiodes (PD). Multicomponent LDM behaviour under CO{sup 60} exposure was extensively tested. Hardened optical data links allow now to ensure medium data transmission rates on appreciable fiber - lengths despite medium steady - state gamma-ray exposure.}
place = {France}
year = {1992}
month = {Dec}
}