Effect of Faraday Mirror Imperfections in a Fiber Optic Current Sensor Dedicated To Iter
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Date
2019
Journal Title
Journal ISSN
Volume Title
Publisher
Elsevier Ltd.
Open Access Color
BRONZE
Green Open Access
Yes
OpenAIRE Downloads
OpenAIRE Views
Publicly Funded
No
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Impulse
Top 10%
Influence
Average
Popularity
Top 10%
Abstract
Plasma current measurements in ITER are safety-related and must therefore satisfy a very demanding specification. In this paper, the use of the Fiber Optics Current Sensor (FOCS) operating in the reflection mode with a Faraday mirror to perform plasma current measurements is analyzed. Based on the Jones matrix formalism, we performed numerical simulations to investigate the impact of the Faraday mirror detuning on the measurement accuracy. We show that the use of standard commercial components does not allow to satisfy the ITER requirements for the whole plasma current range. A simple solution to the problem is proposed, which consists in taking into account a mirror calibration in the current estimator. We show that the achievable mirror calibration accuracy is sufficient to fulfill the ITER requirements.
Description
Keywords
Fiber optics, Plasma diagnosis, Polarimetric sensors, Calibration accuracy, Fiber optics current sensors, Polarimetric sensors, Fiber optics, Calibration accuracy, Plasma diagnosis
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Karabulut, D., Miazin, A., Gusarov, A., Leysen, W., Megret, P. and Wuilpart, M. (2019). Effect of Faraday mirror imperfections in a fiber optic current sensor dedicated to ITER. Fusion Engineering and Design, 138, 48-52. doi:10.1016/j.fusengdes.2018.11.011
WoS Q
Q2
Scopus Q
Q3
OpenCitations Citation Count
6
Source
Fusion Engineering and Design
Volume
138
Issue
Start Page
48
End Page
52
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Citations
CrossRef : 3
Scopus : 13
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Mendeley Readers : 13
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