Atmospheric Neutron Monitoring through Optical Fiber-Based Sensing - Université Jean-Monnet-Saint-Étienne
Article Dans Une Revue Sensors Année : 2020

Atmospheric Neutron Monitoring through Optical Fiber-Based Sensing

Sylvain Girard
Adriana Morana
Jeoffray Vidalot
Philippe Paillet
Gaetano Li Vecchi
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Cosimo Campanella
Damien Lambert
Emmanuel Marin
Aziz Boukenter
Youcef Ouerdane

Résumé

The potential of fiber-based sensors to monitor the fluence of atmospheric neutrons is evaluated through accelerated tests at the TRIUMF Neutron Facility (TNF) (BC, Canada), offering a flux approximatively 109 higher than the reference spectrum observed under standard conditions in New York City, USA. The radiation-induced attenuation (RIA) at 1625 nm of a phosphorus-doped radiation sensitive optical fiber is shown to linearly increase with neutron fluence, allowing an in situ and easy monitoring of the neutron flux and fluence at this facility. Furthermore, our experiments show that the fiber response remains sensitive to the ionization processes, at least up to a fluence of 7.1 × 1011 n cm−², as its radiation sensitivity coefficient (~3.36 dB km−1 Gy−1) under neutron exposure remains very similar to the one measured under X-rays (~3.8 dB km−1 Gy−1) at the same wavelength. The presented results open the way to the development of a point-like or even a distributed dosimeter for natural or man-made neutron-rich environments. The feasibility to measure the dose caused by the neutron exposure during stratospheric balloon experiments, or during outer space missions, is presented as a case study of a potential future application.

Dates et versions

ujm-03271916 , version 1 (27-06-2021)

Identifiants

Citer

Sylvain Girard, Adriana Morana, Cornelia Hoehr, Michael Trinczek, Jeoffray Vidalot, et al.. Atmospheric Neutron Monitoring through Optical Fiber-Based Sensing. Sensors, 2020, 20 (16), pp.4510. ⟨10.3390/s20164510⟩. ⟨ujm-03271916⟩
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