CO2 cooling in terrestrial planet thermospheres

Details CO2 cooling in terrestrial planet thermospheres CO2 cooling in terrestrial planet thermospheres

Jul 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994jgr....9914609b&link_type=abstract

Journal of Geophysical Research (ISSN 0148-0227), vol. 99, no. E7, p. 14,609-14,622

Physics

34

Atmospheric Heat Budget, Carbon Dioxide, Cooling, Mars Atmosphere, Thermosphere, Venus Atmosphere, Comparison, Conductive Heat Transfer, Thermodynamics

Scientific paper

We examine the recent progress in the debate on the CO2-O relaxation rate, its temperature dependence, and its corresponding impact on the thermospheric heat budgets of Venus, Earth, and Mars. This comparative approach provides the broadest range of conditions under which a common CO2-O relaxation rate should provide consistent results. New global mean calculations are presented for the heat budgets of these three planets using large CO2-O relaxation rates that have been inferred recently from Earth CO2 radiance measurements and laboratory studies. Results indicate that available Venus and Mars data constrain the CO2-O relaxation rate to be 2-4 x 10-12/cu cm/s at 300 K. For Venus, this strong cooling serves as an effective thermostat that gives rise to a small variation of thermospheric temperatures over the solar cycle, just as observed. Conversely, CO2 cooling does not appear to be dominant in the dayside heat budget of the Mars thermosphere over most of the solar cycle. For the Earth, this strong cooling implies that the lower thermosphere does not typically require significant eddy diffusion or heat conduction. However, global-scale dynamics or an additional heating mechanism may be needed to restore calculated temperatures to observed values when relaxation rates exceeding 2 x 10-12/cu cm/s are employed.

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