Physics
Scientific paper
Dec 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996icar..124..441b&link_type=abstract
Icarus, Volume 124, Issue 2, pp. 441-451.
Physics
40
Scientific paper
Laboratory experiments were performed to study the Brownian motion of mum-sized dust grains and small aggregates under pre-planetary nebula conditions, i.e., in a thin gas atmosphere (Epstein drag regime), in the ballistic limit, and under microgravity conditions. The results of these experiments, i.e., the grain diffusivities, are in quantitative agreement with theoretical predictions for single spherical grains. Deviations from particle sphericity, i.e., in our case aggregates consisting of monodisperse spherical grains, cause only minor deviations between the Epstein drag formula for spheres and our experimental results for equal particle cross section. Thus, we find a quantitative agreement of our measurements with the Epstein relation D ~ 1/sigma_a between grain diffusivity and geometrical (aerodynamic) cross section. The results of our investigations can be used for the calculation of the gas-grain stopping time tau_f = epsilon (m/sigma_a) (1/rho_gv_m) which, in turn, is an important grain characteristic for the calculation of pre-planetary dust aggregation. Here, m and sigma_a are the mass and the aerodynamic, i.e., geometric cross section of the grain, rho_g and v_m are the mass density of the gas and the mean thermal velocity of the gas molecules, and epsilon is a proportionality factor which we determined to be epsilon = 0.68 +/- 0.10. The gas-grain stopping time describes the strength of grain coupling to a given gas motion and its value determines relative velocities and, hence, collision frequencies between dust grains due to sedimentation, drag-induced orbital decay, and gas turbulence in the solar nebula.
Blum Jürgen
Henning Thomas
Kempf Sascha
Wurm Gerhard
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