Remote in situ laser-induced breakdown spectroscopic approach for diagnosis of the plasma facing components on experimental advanced superconducting tokamak

The diagnosis of the fuel retention and impurity deposition on the plasma facing components (PFCs) is very important for monitoring plasma-wall interactions and improving the performance of long-pulse operation for tokamak devices. In this study, a remote in situ laser-induced breakdown spectroscopi...

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Published in:Review of scientific instruments 2018-07, Vol.89 (7), p.073501-073501
Main Authors: Zhao, Dongye, Li, Cong, Hu, Zhenhua, Feng, Chunlei, Xiao, Qingmei, Hai, Ran, Liu, Ping, Sun, Liying, Wu, Ding, Fu, Cailong, Liu, Jiamin, Farid, Nazar, Ding, Fang, Luo, Guang-Nan, Wang, Liang, Ding, Hongbin
Format: Article
Language:English
Subjects:
Deposition
Deuterium
Deuterium plasma
Diagnosis
Discharge
Engineering test reactors
Impurities
Laser induced breakdown spectroscopy
Network control
Nuclear fuels
Nuclear power plants
Remote control
Superconductivity
Tokamak devices
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cited_by cdi_FETCH-LOGICAL-c383t-e2b31f9cba33a2af595d4db5f49cba3b9c7efae31403e94d0588a90cb47cc4e03
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creator Zhao, Dongye
Li, Cong
Hu, Zhenhua
Feng, Chunlei
Xiao, Qingmei
Hai, Ran
Liu, Ping
Sun, Liying
Wu, Ding
Fu, Cailong
Liu, Jiamin
Farid, Nazar
Ding, Fang
Luo, Guang-Nan
Wang, Liang
Ding, Hongbin
description The diagnosis of the fuel retention and impurity deposition on the plasma facing components (PFCs) is very important for monitoring plasma-wall interactions and improving the performance of long-pulse operation for tokamak devices. In this study, a remote in situ laser-induced breakdown spectroscopic (RIS-LIBS) system has been developed to be an effective and routine method for the diagnosis of the composition of the PFCs on Experimental Advanced Superconducting Tokamak (EAST). The RIS-LIBS system can be operated between EAST discharges via a remote network control system. This allows a flexible diagnosis for the PFCs at a specific EAST discharge operation or under planned plasma scenarios according to the experimental requirement. Measurements on the fuel retention and impurity deposition of the PFCs have been performed for the test of the RIS-LIBS system, and the depth resolution and the lateral resolution of the RIS-LIBS system have been achieved to be ∼100 nm and ∼3.0 mm, respectively. For the test of detectable elements, the fuel (deuterium) and impurities have been detected and identified clearly. In addition, the measurement of fuel abundance on the first wall as a function of the days of EAST deuterium plasma discharges has been carried out for the first time. These results well manifest a significant prospect of the RIS-LIBS for the diagnosis of the PFCs in the upcoming fusion devices like China Fusion Engineering Test Reactor (CFETR) and ITER.
doi_str_mv 10.1063/1.5024848
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In addition, the measurement of fuel abundance on the first wall as a function of the days of EAST deuterium plasma discharges has been carried out for the first time. 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source American Institute of Physics (AIP) Publications; American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Deposition
Deuterium
Deuterium plasma
Diagnosis
Discharge
Engineering test reactors
Impurities
Laser induced breakdown spectroscopy
Network control
Nuclear fuels
Nuclear power plants
Remote control
Superconductivity
Tokamak devices
title Remote in situ laser-induced breakdown spectroscopic approach for diagnosis of the plasma facing components on experimental advanced superconducting tokamak
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