1. Microanalysis of Hypervelocity Impact Residues of Possible Interstellar Origin
- Author
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Stroud, Rhonda M, Achilles, Cheri, Allen, Carlton, Anasari, Asna, Bajt, Sasa, Bassim, Nabil, Bastien, Ron S, Bechtel, H. A, Borg, Janet, Brenker, Frank E, Bridges, John, Brownlee, Donald E, Burchell, Mark, Burghammer, Manfred, Butterworth, Anna L, Changela, Hitesh, Cloetens, Peter, Davis, Andrew M, Doll, Ryan, Floss, Christine, Flynn, George, Fougeray, Patrick, Frank, David, Sandford, Scott A, and Zolensky, Michael E
- Subjects
Space Sciences (General) - Abstract
The NASA Stardust spacecraft deployed two collector trays, one dedicated to the collection of dust from Comet Wild 2, and the other for the capture of interstellar dust (ISD). The samples were returned successfully to Earth in 2006, and now provide an unprecedented opportunity for laboratory-based microanalysis of materials from the outer solar system and beyond. Results from the cometary sample studies have demonstrated that Wild 2 contains much more refractory condensate material and much less pristine extra-solar material than expected, which further indicates that there was significant transport of inner solar system materials to the Kuiper Belt in the early solar system [1]. The analysis of the interstellar samples is still in the preliminary examination (PE) phase, due to the level of difficulty in the definitive identification of the ISD features, the overall low abundance, and its irreplaceable nature, which necessitates minimally invasive measurements [2]. We present here coordinated microanalysis of the impact features on the Al foils, which have led to the identification of four impacts that are possibly attributable to interstellar dust. Results from the study of four ISD candidates captured in aerogel are presented elsewhere [2].
- Published
- 2012