Venus nighttime hydrogen bulge

Details Venus nighttime hydrogen bulge Venus nighttime hydrogen bulge

Nov 1980

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1980georl...7..865b&link_type=abstract

Geophysical Research Letters, vol. 7, Nov. 1980, p. 865-868.

Physics

12

Atmospheric Composition, Atom Concentration, Hydrogen Atoms, Nocturnal Variations, Thermosphere, Venus Atmosphere, Chemical Equilibrium, Diurnal Variations, Ion Density (Concentration), Vertical Distribution, Venus, Hydrogen, Thermosphere, Altitude, Pioneer Venus, Spectrometry, Concentrations, Distribution, Density, Analysis, Wind, Diffusion, Exosphere, Temperatures, Transport, Diurnal Variations, Atmosphere, Data, Ions

Scientific paper

The concentration of atomic hydrogen in the Venus thermosphere near 165 km altitude and approximately 18 deg north latitude has been derived from Pioneer Venus in situ measurements of H(+), O(+), O and CO2 concentrations, under the assumption of chemical equilibrium. Altitude profiles of derived H concentration suggest that chemical equilibrium prevails to an altitude of at least 200 km on the dayside and to 165 km on the nightside. Measurements below these limits were made by the ion and neutral mass spectrometers on the orbiter spacecraft between December 1978 and July 1979, while periapsis traversed a complete diurnal cycle. The hydrogen concentration is found to rise sharply at both terminators from a dayside value of approximately 50,000/cu cm, and to exhibit an asymmetric nightside distribution with a peak density in the predawn sector approximately 400 times greater than the dayside value. Analysis suggests that wind-induced diffusion, combined with exospheric return flow, can account for the observed hydrogen behavior. The large day-night temperature contrast enhances advective transport, which produces the large H concentration diurnal variation; the shift of the H concentration nighttime maximum toward dawn is caused by atmospheric superrotation.

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