Fusion related research with laser-induced-breakdown-spectroscopy on metallic samples at the ENEA-Frascati laboratory

Almaviva S.; Caneve L.; Colao F.; Maddaluno G.

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Fusion related research with laser-induced-breakdown-spectroscopy on metallic samples at the ENEA-Frascati laboratory

机译：在ENEA-Frascati实验室对金属样品进行激光诱导击穿光谱的融合相关研究

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The study of plasma-wall interactions is of paramount importance for continuous and fault free operations in thermonuclear fusion research to monitor the damages of plasma facing components (PFCs), plasma pollution from impurities and wall retention of hydrogen isotopes, like tritium. These needs make laser-induced-breakdown-spectroscopy (LIBS) a suitable candidate for a real time monitoring of PFCs in the current and next generation fusion devices, like ITER. It is also worthwhile for the quantitative analysis of surfaces, with micro-destructivity of the sample and depth profiling capabilities with sub-micrometric sensitivity. In this paper LIBS spectroscopy is exploited as a valid diagnostic tool for PFCs at the ENEA Research Center in Frascati (Italy) and at the Institute of Plasma Physics and Laser Microfusion (IPPLM) of Warsaw (Poland). The activities have been focused on LIBS characterization of samples simulating PFCs surfaces eroded/redeposited or contaminated from nuclear fuel after or during the normal operation of the reactor.

机译：等离子体-壁之间相互作用的研究对于热核聚变研究的连续性和无故障运行至关重要，以监测等离子体面对组件（PFCs）的损害，杂质引起的等离子体污染以及氢同位素（如tri）的壁保留。这些需求使激光诱导击穿光谱法（LIBS）成为实时监视当前和下一代融合装置（如ITER）中PFC的合适候选者。对于表面的定量分析，样品的微破坏性和具有亚微米灵敏度的深度分析功能，这也是值得的。本文在意大利弗拉斯卡蒂的ENEA研究中心和波兰华沙的等离子体物理和激光微融合研究所（IPPLM）将LIBS光谱学用作PFC的有效诊断工具。活动的重点是模拟反应堆正常运行后或运行过程中被核燃料腐蚀/再沉积或污染的PFC表面的样品的LIBS表征。

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《Physica Scripta: An International Journal for Experimental and Theoretical Physics》 |2016年第4期|共7页
作者
Almaviva S.; Caneve L.; Colao F.; Maddaluno G.;
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正文语种 eng
中图分类物理学;
关键词
hydrogen isotopes detection; Laser-Induced-Breakdown-Spectroscopy; plasma facing components; nuclear fuel retention; diagnostics for nuclear fusion devices;

机译：氢同位素检测;激光诱导击穿光谱;等离子体部件;核燃料保留;核聚变设备诊断;

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1. Fusion related research with laser-induced-breakdown-spectroscopy on metallic samples at the ENEA-Frascati laboratory [J] . Almaviva S., Caneve L., Colao F., Physica Scripta: An International Journal for Experimental and Theoretical Physics . 2016,第4期

机译：在ENEA-Frascati实验室对金属样品进行激光诱导击穿光谱的融合相关研究
2. Optimization of Field and Laboratory Sample Processing for Characterization of Metallic Residues at Military Training Ranges [J] . Clausen J. L., Georgian T., Gardner K. H., Bulletin of Environmental Contamination and Toxicology . 2018,第5期

机译：军事训练范围内金属残留物特征的现场和实验室样品加工优化
3. Real‐world assay variability between laboratories in monitoring of recombinant factor IX Fc fusion protein activity in plasma samples [J] . International journal of laboratory hematology . 2020,第3期

机译：实验室在血浆样品中重组因子IX FC融合蛋白活性监测的实验室之间的变异性
4. Study of EAST LH Antennas Coupling at ENEA-Frascati [C] . L. Panaccione, S. Ceccuzzi, R. Cesario, Topical Conference on Radio Frequency Power in Plasmas . 2015

机译：Est LH天线耦合在Enea-Fracati的研究
5. Multi-Scale Multi-Physics Modeling of Laser Powder Bed Fusion Process of Metallic Materials With Experiment Validation [D] . Zhang, Yi. 2018

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6. Comparative field study evaluating the activity of recombinant factor VIII Fc fusion protein in plasma samples at clinical haemostasis laboratories [O] . J M Sommer, N Moore, B McGuffie-Valentine, -1

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7. An investigation of the luminosity-metallicity relation for a large sample of low-metallicity emission-line galaxies [O] . Guseva, N. G., Papaderos, P., Meyer, H. T., 2009

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8. Breeding rate measurements in solid fusion blankets with metallic lithium samples. [R] . Porges, K. G., Bretscher, M. M. 1990

机译：金属锂样品固体熔融毯的育种率测定。

Fusion related research with laser-induced-breakdown-spectroscopy on metallic samples at the ENEA-Frascati laboratory

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