Determination of Electron Swarm Parameters and Limiting Electrical Field during Martian Dust Storm Season Using Boltzmann Analysis

In the ternary mixture of 95.7% CO2 + 2.69% N-2 + 1.59% Ar with various dust loads representing the Martian atmosphere, ionization, attachment, electron mean energies and electron drift velocities are numerically calculated by a two-term Boltzmann equation analysis at L-s = 270 degrees. The attachme...

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Veröffentlicht in:Acta physica Polonica, A A, 2020-09, Vol.138 (3), p.368-376
Hauptverfasser: Dincer, M. S., Tezcan, S. S., Duzkaya, H., Dincer, S.
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Sprache:eng
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Zusammenfassung:In the ternary mixture of 95.7% CO2 + 2.69% N-2 + 1.59% Ar with various dust loads representing the Martian atmosphere, ionization, attachment, electron mean energies and electron drift velocities are numerically calculated by a two-term Boltzmann equation analysis at L-s = 270 degrees. The attachment coefficient defined carries dissociative attachment collisions of the CO2 component in the ternary mixture together with electron attachment to uncharged dust grains in the dusty storm season. The limiting E/N values for the critical condition where ionization rates are balanced by attachment collisions in the low pressure plasma (E is the electric field produced by the dust storm and N is the total number density of gas molecules in the ternary mixture) are evaluated for various dust loads. The limiting E/N increases as a function of dust grain size and the effect is more pronounced for dust loads with higher grain densities.
ISSN:0587-4246
1898-794X
1898-794X
0587-4246
DOI:10.12693/APhysPolA.138.368