Physics
Scientific paper
Jan 1980
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1980jgr....85..164h&link_type=abstract
Journal of Geophysical Research, vol. 85, Jan. 1, 1979, p. 164-170.
Physics
6
Atmospheric Models, Exosphere, Lunar Atmosphere, Mercury (Planet), Monte Carlo Method, Planetary Atmospheres, Computerized Simulation, Integral Equations, Regolith, Transport Properties, Moon, Mercury, Planet, Monte Carlo Techniques, Exosphere, Transport, Simulations, Mathematical Models, Atoms, Velocities, Distribution, Regolith, Trajectories, Maxwell Distribution, Collisions, Helium, Temperatures, Analysis, Escape Flux
Scientific paper
A general form of the integral equation of exospheric transport on moon-like bodies is derived in a form that permits arbitrary specification of time varying physical processes affecting atom creation and annihilation, atom-regolith collisions, adsorption and desorption, and nonplanetocentric acceleration. Because these processes usually defy analytic representation, the Monte Carlo method of solution of the transport equation, the only viable alternative, is described in detail, with separate discussions of the methods of specification of physical processes as probabalistic functions. Proof of the validity of the Monte Carlo exosphere simulation method is provided in the form of a comparison of analytic and Monte Carlo solutions to three classical, and analytically tractable, exosphere problems. One of the key phenomena in moonlike exosphere simulations, the distribution of velocities of the atoms leaving a regolith, depends mainly on the nature of collisions of free atoms with rocks. It is shown that on the moon and Mercury, elastic collisions of helium atoms with a Maxwellian distribution of vibrating, bound atoms produce a nearly Maxwellian distribution of helium velocities, despite the absence of speeds in excess of escape in the impinging helium velocity distribution.
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