Astronomy and Astrophysics – Astronomy
Scientific paper
Jul 1979
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1979sci...205..107n&link_type=abstract
Science, vol. 205, July 6, 1979, p. 107-109.
Astronomy and Astrophysics
Astronomy
1
Astronomical Models, Atmospheric Models, Ion Density (Concentration), Venus Atmosphere, Carbon Dioxide, Carbon Monoxide, Helium Ions, Hydrogen Ions, Ion Distribution, Mass Spectrometers, Mathematical Models, Molecular Ions, Nitrogen Ions, Nitrogen Oxides, Oxygen Ions, Pioneer Venus Spacecraft, Density, Ions, Venus, Oxygen, Pioneer Venus, Models, Hydrogen, Mass Spectrometers, Equilibrium, Helium, Carbon Dioxide, Diffusion, Dayside, Carbon Monoxide, Orbiter Ion Mass Spectrometer (Oims), Nitrogen, Transport
Scientific paper
Data from the Pioneer Venus ion mass spectrometers are compared with model calculations of the ion density distributions appropriate for daytime conditions. The model assumes diffusive equilibrium upper boundary conditions for the major ions (O2(+), O(+), CO2(+), He(+), and H(+)); the agreement between the calculated and measured gross behavior of these ions is reasonably good except for H(+), which may be influenced strongly by convective transport processes. The distributions of five minor ions (C(+), N(+), NO(+), CO(+), and N2(+)) are also calculated for the chemically controlled region (less than approximately 200 km); the agreements are, in general, poor, an indication that the present understanding of the Venus minor ion chemistry is still incomplete.
Brace Larry H.
Brinton Henry C.
Chen Ruo-Hang
Cravens Thomas E.
Nagy Andrew F.
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