Identification of large (2–10 km) rayed craters on Mars in THEMIS thermal infrared images: Implications for possible Martian meteorite source regions

Autor:	Jeffrey E. Moersch, P. R. Christensen, Alfred S. McEwen, Livio L. Tornabene, J. L. Piatek, Harry Y. McSween, Keith A. Milam
Rok vydání:	2006
Předmět:	Martian Atmospheric Science Thermal Emission Spectrometer Ecology Infrared Paleontology Soil Science Astronomy Forestry Mars Exploration Program Aquatic Science Oceanography Astrobiology Geophysics Impact crater Meteorite Space and Planetary Science Geochemistry and Petrology Earth and Planetary Sciences (miscellaneous) Thermal Emission Imaging System Ejecta Geology Earth-Surface Processes Water Science and Technology
Zdroj:	Journal of Geophysical Research. 111
ISSN:	0148-0227
Popis:	[1] Four definitive and three probable rayed craters have been identified on Mars using 100-m resolution thermal infrared images obtained by the Mars Odyssey Thermal Emission Imaging System (THEMIS). These seven craters are similar to the previously discovered rayed crater Zunil and are best recognized by a distinct thermal contrast with respect to their surroundings. Martian rays, unlike their lunar counterparts, only exhibit minor contrasts in visible albedo. As a consequence, their presence on Mars most likely went unnoticed until substantial global coverage of THEMIS thermal infrared was achieved. Their presence has since been discerned in the coarser-resolution Thermal Emission Spectrometer (TES) data set, which preceded THEMIS. Observations in visible images of the primary cavities, secondaries, and rays suggest that, like lunar ray counterparts, Martian rays are invariably young geomorphic features. Martian rays are typically greater than hundreds of kilometers in length and consist of numerous densely clustered secondary craters, and thereby are a physical manifestation of high-velocity ejecta. Spallation accounts for a small fraction of the high-velocity ejecta that experiences low-shock compression due to interference from the rarefaction wave with the free surface. Spallation is currently the favored mechanism responsible for ejecting meteorites from Mars and is likely responsible for some of the ray-forming secondaries. Additional observations and inferences based on Martian rayed craters are compared with current Martian meteorite delivery models and the Martian meteorites themselves. The correlations presented here suggest that Martian rayed craters are the most plausible candidate source craters for the Martian meteorites to date.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::1c6d2324796a2c0e0dc80b972632718d https://doi.org/10.1029/2005je002600 Zobrazit plný text záznamu Plný text