LiMeS-Wetting
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LiMeS-Wetting is a device at the Differ – Dutch Institute For Fundamental Energy Research ("DIFFER".) research institute in Eindhoven. The LiMeS lab within Differ, which is the acronym for Liquid-Metal Shield, focuses on creating and verifying materials for future nuclear fusion reactors, in which the liquid metal is held by capillary action.
The device is used to perform both wetting studies for tin on tungsten and filling 3d printed capillary porous (CPS) tungsten structures [1] for use in a larger test-setup. The process for this is first plasma cleaning the sample material, followed by injecting tin droplets to fill the sample.
For the cleaning there are a Cascaded Arc Plasma Source, [2] as well as a radical source [3] and glow discharge cleaning. The injector [4] provides tin droplets and the process is verified by the diagnostics: double Langmuir probe, radical probe [5], shadowgraph and an optical emission spectrometer.
See also
- Chemical vapor deposition
- Pulsed laser deposition
- Gas discharge plasmas and their applications.[6]
- Semiconductor manufacturing; Plasma-enhanced chemical vapor deposition
- National Spherical Torus Experiment in nuclear fusion
- DIFFER
References
- ↑ Morgan, T.W.; Vertkov, A.; Bystrov, K. (2017). "Power handling of a liquid-metal based CPS structure under high steady-state heat and particle fluxes". Nuclear Materials and Energy. 12: 210–215. Bibcode:2017NMEne..12..210M. doi:10.1016/j.nme.2017.01.017. Unknown parameter
|name-list-style=ignored (help) - ↑ Kroesen, G.M.W.; Schram, D.C.; de Haas, J.C.M. (1990). "Description of cascade arc plasma" (PDF). Plasma Chemistry and Plasma Processing. 10 (4): 531–551. doi:10.1007/BF01447263 – via alexandria.tue.nl (free article repository). Unknown parameter
|name-list-style=ignored (help) - ↑ Tschersich, K.G.; Fleischhauer, J.P.; Schuler, H. (2008). "Design and characterization of a thermal hydrogen atom source". Journal of Applied Physics. 104 (3): 034908–034908–7. Bibcode:2008JAP...104c4908T. doi:10.1063/1.2963956. Unknown parameter
|name-list-style=ignored (help) - ↑ Cheng, S.X.; Li, T.; Chandra, S. (2004). "Producing molten metal droplets with a pneumatic droplet-on-demand generator". Journal of Materials Processing Technology. 159 (3): 295–302. doi:10.1016/j.jmatprotec.2004.05.016. Unknown parameter
|name-list-style=ignored (help) - ↑ Herrmann, Anja; Krebaum, Patrick M.; Bera, Susanta (2024). "Enhanced Catalytic Probe Design for Mapping Radical Density in the Plasma Afterglow". Journal of Physical Chemistry. 128 (46): 10080−10086. doi:10.1021/acs.jpca.4c06195. PMC 11586897 Check
|pmc=value (help). PMID 39527051 Check|pmid=value (help). Unknown parameter|name-list-style=ignored (help) - ↑ Bogaerts, A.; Neyts, E.; Gijbels, R.; van der Mullen, J. (2002). "Gas discharge plasmas and their applications" (PDF). Spectrochimica Acta. Part B. 57 (4): 609–658. Bibcode:2002AcSpB..57..609B. doi:10.1016/S0584-8547(01)00406-2. Archived from the original (PDF) on 2004-09-27. Unknown parameter
|url-status=ignored (help)CS1 maint: Multiple names: authors list (link)
Further reading
- Tanke, Victor; Alonso van der Westen, Santi; van der Meiden, Hennie j. (27 September 2023). "LiMeS-Lab: An Integrated Laboratory for the Development of Liquid–Metal Shield Technologies for Fusion Reactors". Journal of Fusion Energy. 42 (44). Bibcode:2023JFuE...42...44T. doi:10.1007/s10894-023-00379-3.
- Wang, Shih-Chi; van der Horst, R. M. (2022). "Application of a dual-thermopile radical probe to expanding hydrogen plasmas" (PDF). Plasma Sources Science and Technology. 31 (8). Bibcode:2022PSST...31h5011W. doi:10.1088/1361-6595/ac71c3.
- Hermann, A.; Krebaum, P.; Berra, S. (November 2024). "Enhanced Catalytic Probe Design for Mapping Radical Density in the Plasma Afterglow". Journal of Physical Chemistry A. 128 (46): 10080–10086. doi:10.1021/acs.jpca.4c06195. PMC 11586897 Check
|pmc=value (help). PMID 39527051 Check|pmid=value (help). - Tschersich, K. G.; Fielschauer, J. P.; Schuler, H. (5 August 2008). "Design and characterization of a thermal hydrogen atom source". Journal of Applied Physics. 104 (3): 034908–034908–7. Bibcode:2008JAP...104c4908T. doi:10.1063/1.2963956.
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