Comparison of Calculated and Measured Ion Densities on the Dayside of Venus
- 6 July 1979
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 205 (4401) , 107-109
- https://doi.org/10.1126/science.205.4401.107
Abstract
Datafrom 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 (≲ 200 kilometers); the agreements are, in general, poor, an indication that our present understanding of the Venus minor ion chemistry is still incomplete.Keywords
This publication has 15 references indexed in Scilit:
- Venus Ionosphere: Photochemical and Thermal Diffusion Control of Ion CompositionScience, 1979
- Ultraviolet Night Airglow of VenusScience, 1979
- The energetics of the ionosphere of Venus: A preliminary model based on Pioneer Venus observationsGeophysical Research Letters, 1979
- Electron Temperatures and Densities in the Venus Ionosphere: Pioneer Venus Orbiter Electron Temperature Probe ResultsScience, 1979
- Thermal Structure and Major Ion Composition of the Venus Ionosphere: First RPA Results from Venus OrbiterScience, 1979
- Ionosphere of Venus: First Observations of the Dayside Ion Composition Near Dawn and DuskScience, 1979
- Initial Pioneer Venus Magnetic Field Results: Dayside ObservationsScience, 1979
- Ionosphere of Venus: First Observations of the Effects of Dynamics on the Dayside Ion CompositionScience, 1979
- Ion-neutral reaction-rate constants measured in flow reactors through 1977Atomic Data and Nuclear Data Tables, 1978
- Airglow from the inner comas of cometsIcarus, 1978