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Large Meteorite Impacts and Planetary Evolution IV
Editor(s)
Roger L. Gibson;
Roger L. Gibson
Impact Cratering Research Group, School of Geosciences, University of the Witwatersrand, Johannesburg, South Africa
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Wolf Uwe Reimold
Wolf Uwe Reimold
Museum für Naturkunde-Leibniz Institute at Humboldt University, Berlin, Germany
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Geological Society of America
Copyright:
© 2010 Geological Society of America
ISBN print:
9780813724652
Publication date:
September 01, 2010
Book Chapter
Basin-forming impacts: Reconnaissance modeling
Author(s)
B.A. Ivanov
;
B.A. Ivanov
Institute for Dynamics of Geospheres, Russian Academy of Sciences, Leninsky Prospect 38-1, Moscow, Russia
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H.J. Melosh
;
H.J. Melosh
Lunar and Planetary Laboratory, University of Arizona, 429E Space Sciences Building, Tucson, Arizona 85721-0092, USA
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E. Pierazzo
E. Pierazzo
Planetary Science Institute, 1700 E. Ft. Lowell Road, Suite 106, Tucson, Arizona 85719, USA
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Published:September 01, 2010
This paper is a current status report on a project focused on understanding the formation of large impact basins on terrestrial planetary bodies. A set of preliminary two-dimensional axisymmetric numerical models of collisions of asteroids with diameters from 150 to 800 km with the Moon, Mars, and Mercury illustrates the main mechanical effects of planetary-scale impacts. The target body is modeled on a regular grid with a spatial resolution of 5–10 km. Self-gravity is included in the hydrocode. The main consequence of such an impact is a deep melt pool at the center of the basin. Model results are tentatively compared with known impact basins such as South Pole–Aitken on the Moon and Hellas on Mars.
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Index Terms/Descriptors
- asteroids
- basins
- convection
- core
- craters
- free oscillations
- Hellas Basin
- impact craters
- impact features
- impact melts
- impacts
- lithostatic pressure
- mantle
- Mars
- melting
- melts
- Mercury Planet
- metamorphism
- models
- Moon
- numerical models
- planetary interiors
- planets
- scale models
- shock metamorphism
- shock waves
- South Pole-Aitken Basin
- symmetry
- temperature
- terrestrial planets
- transient phenomena
- two-dimensional models
- volume
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