Title of article
Modelling circumplanetary ejecta clouds at low altitudes: A probabilistic approach
Author/Authors
Christou، نويسنده , , Apostolos A.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2015
Pages
12
From page
268
To page
279
Abstract
A model is presented of a ballistic, collisionless, steady state population of ejecta launched at randomly distributed times and velocities and moving under constant gravity above the surface of an airless planetary body. Within a probabilistic framework, closed form solutions are derived for the probability density functions of the altitude distribution of particles, the distribution of their speeds in a rest frame both at the surface and at altitude and with respect to a moving platform such as an orbiting spacecraft. These expressions are validated against numerically-generated synthetic populations of ejecta under lunar surface gravity. The model is applied to the cases where the ejection speed distribution is (a) uniform (b) a power law. For the latter law, it is found that the effective scale height of the ejecta envelope directly depends on the exponent of the power law and increases with altitude. The same holds for the speed distribution of particles near the surface. Ejection model parameters can, therefore, be constrained through orbital and surface measurements. The scope of the model is then extended to include size-dependency of the ejection speed and an example worked through for a deterministic power law relation. The result suggests that the height distribution of ejecta is a sensitive proxy for this dependency.
Keywords
moon , Impact processes , Interplanetary dust , satellites , surfaces , moon , Surface
Journal title
Icarus
Serial Year
2015
Journal title
Icarus
Record number
2383895
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