Title :
Integration of optical fibers in radiative environments: Advantages and limitations
Author :
Girard, S. ; Ouerdane, Y. ; Boukenter, Aziz ; Marcandella, C. ; Bisutti, J. ; Baggio, J. ; Meunier, J.-P.
Author_Institution :
DAM, CEA, Arpajon, France
Abstract :
We review the advantages and limitations for the integration of optical fibers in radiative environments. Optical fibers present numerous advantages for applications in harsh environments such as their electromagnetic immunity. This explains the increasing interest of the radiation effects community to evaluate their vulnerability for future facilities. However, it is also well-known that optical fibers suffer from a degradation of their macroscopic properties under irradiation. We illustrate the major mechanisms and parameters that govern the degradation mechanism, mainly the radiation-induced attenuation phenomena. We focus on the fiber transient radiation responses when exposed to the pulsed and mixed environment associated with the Megajoule class lasers devoted to the fusion by inertial confinement study.
Keywords :
fusion reactor instrumentation; fusion reactor materials; optical fibres; plasma inertial confinement; radiation effects; Megajoule class lasers; degradation mechanism; electromagnetic immunity; fiber transient radiation response; harsh environments; inertial confinement fusion; macroscopic property degradation; mixed environment; optical fiber integration; pulsed environment; radiation induced attenuation phenomena; radiative environments; Attenuation; Fiber lasers; Optical fiber dispersion; Optical fiber sensors; Optical fibers; Radiation effects; Transient analysis; color centers; optical fibers; radiation effects; radiation-induced attenuation; transient irradiation;
Conference_Titel :
Advancements in Nuclear Instrumentation Measurement Methods and their Applications (ANIMMA), 2011 2nd International Conference on
Conference_Location :
Ghent
Print_ISBN :
978-1-4577-0925-8
DOI :
10.1109/ANIMMA.2011.6172874
