Numerical Modeling of the Scale Dependence of Impact Crater Morphology in an Acoustic Fluidized Target

Details Numerical Modeling of the Scale Dependence of Impact Crater Morphology in an Acoustic Fluidized Target Numerical Modeling of the Scale Dependence of Impact Crater Morphology in an Acoustic Fluidized Target

Mar 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002lpi....33.1277w&link_type=abstract

33rd Annual Lunar and Planetary Science Conference, March 11-15, 2002, Houston, Texas, abstract no.1277

Computer Science

Scientific paper

We study simple to complex crater transition with a numerical model. The
scaled acouistic fluidization model, incorporated into a hydrocode,
allows us to reproduce the difference between Earth and the moon in
respect to this transition.

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