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Measurement of Damage Profiles from Solar Wind ImplantationNASA's Genesis Mission launched from Cape Canaveral in August of 2001 with the goal of collecting solar wind in ultra-pure materials. The samples were returned to Earth more than three years later for subsequent analysis. Although the solar wind is comprised primarily of protons, it also contains ionized species representing the entire periodic table. The Genesis mission took advantage of the natural momentum of these ionized species to implant themselves in specialized collectors including single crystal Si and SiC. The collectors trapped the solar wind species of interest and sustained significant damage to the surface crystal structure as a result of the ion bombardment. In this work, spectroscopic ellipsometry has been used to evaluate the extent of this damage in Si and SiC samples. These results and models are compared for artificially implanted samples and pristine non-flight material. In addition, the flown samples had accumulated a thin film of molecular contamination as a result of outgassing in flight, and we demonstrate that this layer can be differentiated from the material damage. In addition to collecting bulk solar wind samples (continuous exposure), the Genesis mission actually returned silicon exposed to four different solar wind regimes: bulk, high speed, low speed, and coronal mass ejections. Each of these solar wind regimes varies in energy, but may vary in composition as well. While determining the composition is a primary goal of the mission, we are also interested in the variation in depth and extent of the damage layer as a function of solar wind regime. Here, we examine flight Si from the bulk solar wind regime and compare the results to both pristine and artificially implanted Si. Finally, there were four samples which were mounted in an electrostatic "concentrator" designed to reject a large fraction (>85%) of incoming protons while enhancing the concentration of ions mass 4-28 amu by a factor of at least 20. Two of these samples were single crystal 6H silicon carbide. (The others were polycrystalline CVD diamond and amorphous carbon that were not examined in the work.) The ion damaged SiC samples from the concentrator were studied in comparison to the flight Si from the bulk array to understand differences in the extent of the damage.
Document ID
20070021568
Acquisition Source
Johnson Space Center
Document Type
Conference Paper
Authors
McNamara, K. M.
(NASA Johnson Space Center Houston, TX, United States)
Synowicki, R. A.
(Woollam (John A.) Co. Lincoln, NE, United States)
Tiwald, T. E.
(Woollam (John A.) Co. Lincoln, NE, United States)
Date Acquired
August 23, 2013
Publication Date
April 13, 2007
Subject Category
Solar Physics
Meeting Information
Meeting: 4th International Conference on Spectroscopic Ellipsometry
Location: Stockholm
Country: Sweden
Start Date: June 11, 2007
End Date: June 15, 2007
Distribution Limits
Public
Copyright
Other

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