C3运动后西分流墙砖的非原位LIBS分析

IF 0.5 Q4 NUCLEAR SCIENCE & TECHNOLOGY
I. Jõgi, P. Paris, E. Bernard, M. Diez, E. Tsitrone, A. Hakola, J. Likonen, T. Vuoriheimo, E. Grigore
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引用次数: 1

摘要

托卡马克壁上的燃料保留监测需要开发远程成分分析方法,如激光诱导击穿光谱(LIBS)。本研究探讨了用LIBS方法分析西部导流道侵蚀标志瓦3个样品组成和燃料保留的可行性。所调查的样品来自强侵蚀和沉积区外的瓦区,在这些地区,薄沉积层的变化相对较小,便于不同分析方法之间的交叉比较。主要成分W、Mo和C的深度分布与其他成分分析方法如辉光发射光谱(GDOES)和二次离子质谱(SIMS)测定的深度分布一致。从深度剖面确定的平均LIBS深度分辨率为100 nm/次。对同一样品的多个点收集的光谱进行平均,使我们能够提高信噪比,研究燃料D和微量杂质(如O和b)的存在。在所研究的侵蚀和沉积可以忽略不计的瓦区,这些杂质在第一次激光射击时可以清楚地检测到,而在随后的几次激光射击后,信号下降到噪声水平。对来自瓷砖沉积区域的样品进行LIBS调查可以进一步阐明LIBS调查微量杂质的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ex Situ LIBS Analysis of WEST Divertor Wall Tiles after C3 Campaign
Fuel retention monitoring in tokamak walls requires the development of remote composition analysis methods such as laser-induced breakdown spectroscopy (LIBS). The present study investigates the feasibility of the LIBS method to analyse the composition and fuel retention in three samples from WEST divertor erosion marker tiles after the experimental campaign C3. The investigated samples originated from tile regions outside of strong erosion and deposition regions, where the variation of thin deposit layers is relatively small and facilitates cross-comparison between different analysis methods. The depth profiles of main constituents W, Mo and C were consistent with depth profiles determined by other composition analysis methods, such as glow-discharge optical emission spectroscopy (GDOES) and secondary ion mass spectrometry (SIMS). The average LIBS depth resolution determined from depth profiles was 100 nm/shot. The averaging of the spectra collected from multiple spots of a same sample allowed us to improve the signal-to-noise ratio, investigate the presence of fuel D and trace impurities such as O and B. In the investigated tile regions with negligible erosion and deposition, these impurities were clearly detectable during the first laser shot, while the signal decreased to noise level after a few subsequent laser shots at the same spot. LIBS investigation of samples originating from the deposition regions of tiles may further clarify LIBS’ ability to investigate trace impurities.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
56
期刊介绍: The Journal of Nuclear Engineering and Radiation Science is ASME’s latest title within the energy sector. The publication is for specialists in the nuclear/power engineering areas of industry, academia, and government.
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