B. Brichard scite author profile

International audienceIn this review paper, we present radiation effects on silica-based optical fibers. We first describe the mechanisms inducing microscopic and macroscopic changes under irradiation: radiation-induced attenuation, radiation-induced emission and compaction. We then discuss the influence of various parameters related to the optical fiber, to the harsh environments and to the fiber-based applications on the amplitudes and kinetics of these changes. Then, we focus on advances obtained over the last years. We summarize the main results regarding the fiber vulnerability and hardening to radiative constraints associated with several facilities such as Megajoule class lasers, ITER, LHC, nuclear power plants or with space applications. Based on the experience gained during these projects, we suggest some of the challenges that will have to be overcome in the near future to allow a deeper integration of fibers and fiber-based sensors in radiative environments

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Radiation-hardening techniques of dedicated optical fibres used in plasma diagnostic systems in ITER

Brichard

Fernández

Ooms

et al. 2004

Journal of Nuclear Materials

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High γ-ray dose radiation effects on the performances of Brillouin scattering based optical fiber sensors

et al. 2012

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The use of distributed strain and temperature in optical fiber sensors based on Brillouin scattering for the monitoring of nuclear waste repository requires investigation of their performance changes under irradiation. For this purpose, we irradiated various fiber types at high gamma doses which represented the harsh environment constraints associated with the considered application. Radiation leads to two phenomena impacting the Brillouin scattering: 1) decreasing in the fiber linear transmission through the radiation-induced attenuation (RIA) phenomenon which impacts distance range and 2) modifying the Brillouin scattering properties, both intrinsic frequency position of Brillouin loss and its dependence on strain and temperature. We then examined the dose dependence of these radiation-induced changes in the 1 to 10 MGy dose range, showing that the responses strongly depend on the fiber composition. We characterized the radiation effects on strain and temperature coefficients, dependencies of the Brillouin frequency, providing evidence for a strong robustness of these intrinsic properties against radiations. From our results, Fluorine-doped fibers appear to be very promising candidates for temperature and strain sensing through Brillouin-based sensors in high gamma-ray dose radiative environments.

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Radiation-tolerant Raman distributed temperature monitoring system for large nuclear infrastructures

Fernández

Rodeghiero

Brichard

et al. 2005

IEEE Trans. Nucl. Sci.

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An Introduction to Radiation Effects on Optical Components and Fiber Optic Sensors

Berghmans

Brichard

Fernández

et al.

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B. Brichard

Radiation Effects on Silica-Based Optical Fibers: Recent Advances and Future Challenges

Radiation-hardening techniques of dedicated optical fibres used in plasma diagnostic systems in ITER

High γ-ray dose radiation effects on the performances of Brillouin scattering based optical fiber sensors

Radiation-tolerant Raman distributed temperature monitoring system for large nuclear infrastructures

An Introduction to Radiation Effects on Optical Components and Fiber Optic Sensors

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