Dosimetry Mapping of Mixed-Field Radiation Environment Through Combined Distributed Optical Fiber Sensing and FLUKA Simulation

Distributed optical fiber (OF) radiation sensing is a technique recently adopted at CERN for the monitoring of radiation dose levels in the proton synchrotron (PS) booster and in the PS. In this paper, we present the progress made on our previous work by benchmarking the rich information contained i...

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Bibliographic Details
Published in:IEEE transactions on nuclear science 2019-01, Vol.66 (1), p.299-305
Main Authors: Di Francesca, Diego, Infantino, Angelo, Li Vecchi, Gaetano, Girard, Sylvain, Alessi, Antonino, Kadi, Yacine, Brugger, Markus
Format: Article
Language:English
Subjects:
Cable shielding
Calibration
CERN
Computer simulation
distributed sensor
Dosimeters
Dosimetry
Engineering Sciences
FLUKA
Internet
Irradiation
Linearity
Mapping
Optical fiber cables
Optical fibers
optical fibers (OFs)
Optics
Photonic
Protons
Radiation
Radiation dosage
Radiation effects
Radiation measurement
radiation-induced attenuation (RIA)
Synchrotrons
Tunnels
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Summary:Distributed optical fiber (OF) radiation sensing is a technique recently adopted at CERN for the monitoring of radiation dose levels in the proton synchrotron (PS) booster and in the PS. In this paper, we present the progress made on our previous work by benchmarking the rich information contained in the spatially distributed OF dose measurement with the radiation levels simulated with the FLUKA Monte Carlo code. We begin by discussing the experimental results for the qualification/calibration of a new radiation sensitive single-mode OF, currently being deployed in the accelerator tunnels. We performed this calibration tests online under 60 Co γ-rays source. We then move on to report the results of the online irradiation tests that we carried out in the CERN high energy accelerator mixed-field facility. Finally, we compare the OF radiation maps with the dose levels calculated along the OF cable with FLUKA for two very different configurations of the facility. This paper is a first promising example of combining 3-D Monte Carlo simulations of complex mixed-field environment with the 1-D spatially distributed dose measurements provided by the OF-based dosimetry.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2018.2882135