experimental studies of low energy proton irradiation of thin vacuum deposited aluminum layers t....
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![Page 1: Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminum layers T. Renger, M. Sznajder, U.R.M.E. Geppert Chart](https://reader036.vdocuments.mx/reader036/viewer/2022070411/56649c7e5503460f9493349d/html5/thumbnails/1.jpg)
Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminum layers
T. Renger, M. Sznajder, U.R.M.E. Geppert
www.DLR.de • Chart 1 > Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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degradation studies especially for thin foils
simultaneous irradiation to simulate the solar elm. and particle radiation:• photons 40nm < < 2500nm𝜆• electrons + protons 1…100keV
changes in the thermo-optical and elastic material properties
• measurement of αS and ε
• mass spectroscopy to evaluate the outgassing processes
www.DLR.de • Chart 2
The Complex Irradiation Facility (CIF)
> Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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www.DLR.de • Chart 3 > Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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www.DLR.de • Chart 4 > Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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For this special experiments:
• Low energy protons
• Thermal conditioning of the sample
• 7.5 µm Upilex-S® foil covered on both sides with 100 nm Al
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www.DLR.de • Chart 6
100 keV proton / electron dual beam irradiation system
> Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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Target mounting
www.DLR.de • Chart 7
thermal conditioning: 80 K to 470 K
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Test parameters
Sample T [K] E [keV] D [p+ cm-2] ts [days]
A1 300.0 2.5 4.3 x 1017 3.5
A2 300.0 6.0 5.9 x 1017 4.8
B1 323.0 2.5 7.8 x 1017 4.8
B2 323.0 2.5 8.2 x 1017 5.0
B3 323.0 2.5 1.3 x 1018 7.9
www.DLR.de • Chart 8 > Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
𝐷 ¿
See next talk by M.Sznajder
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Picture of the sample and the spot
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Microscope pictures of sample B3(unirradiated and irradiated region)
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Microscope pictures of sample A1 and A2
www.DLR.de • Chart 11
A1 (2.5 keV; 4.3 x 1017 p+cm-2; 300.0 K) A2 (6.0 keV; 5.9 x 1017 p+cm-2; 300.0 K)
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SRIM simulation: Polyimide covered with 100 nm Al-layer
www.DLR.de • Chart 12
2.5 keV protons 6.0 keV protons32.8 % pass through the Al-layer
> Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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Microscope pictures of sample B1, B2, and B3
www.DLR.de • Chart 13
Average bubble radius:B1: 0.17 ± 0.05 µm (7.8 x 1017 p+cm-2; 2.5 keV; 323.0 K)
B2: 0.2 ± 0.05 µm (8.2 x 1017 p+cm-2; 2.5 keV; 323.0 K)
B3: 0.25 ± 0.05 µm (1.3 x 1018 p+cm-2; 2.5 keV; 323.0 K)
> Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014
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Height profile of sample B3
www.DLR.de • Chart 14
B3:1.3 x 1018 p+cm-2 2.5 keV323.0 K
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Conclusion
• Molecular Hydrogen bubbles populate Aluminum surfaces under interplanetary space conditions, depending on energy and dose of incident protons and temperature of the surface
• The change of morphology of a thin Al-layer depends on the energy of protons. If it is higher then the critical energy, the protons pass through the Al-layer and other effects appear.
• The average bubble size increases with higher proton doses.
www.DLR.de • Chart 15 > Experimental studies of low energy proton irradiation of thin vacuum deposited Aluminium layers > T. Renger > 04.04.2014