2023
DOI: 10.1038/s41598-023-29138-2
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Hydrogen isotope analysis in W-tiles using fs-LIBS

Abstract: Laser-Induced Breakdown Spectroscopy (LIBS) is a promising technology for in-situ analysis of Plasma-Facing Components in magnetic confinement fusion facilities. It is of major interest to monitor the hydrogen isotope retention i.e. tritium and deuterium over many operation hours to guarantee safety and availability of the future reactor. In our studies we use ultraviolet femtosecond laser pulses to analyze tungsten (W) tiles that were exposed to a deuterium plasma in the linear plasma device PSI-2, which mimi… Show more

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Cited by 6 publications
(1 citation statement)
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“…Many studies focus on using LIBS to monitor material deposition or H isotope penetration into PFCs. [332][333][334][335][336] Mittelmann et al 332 used fs-LIBS along with calibration-free approaches to quantify D in W materials. Zhao et al 334 investigated ps-LIBS, finding that the lowest energy ablation regime resulted in the optimal W signal and a minimal ablation rate, providing very high-resolution depth profiling capabilities.…”
Section: Fusion Reactorsmentioning
confidence: 99%
“…Many studies focus on using LIBS to monitor material deposition or H isotope penetration into PFCs. [332][333][334][335][336] Mittelmann et al 332 used fs-LIBS along with calibration-free approaches to quantify D in W materials. Zhao et al 334 investigated ps-LIBS, finding that the lowest energy ablation regime resulted in the optimal W signal and a minimal ablation rate, providing very high-resolution depth profiling capabilities.…”
Section: Fusion Reactorsmentioning
confidence: 99%