CH4 is the only photochemically active constituent in the atmospheres of Uranus and Neptune. NH3, H2O and H2S are all removed by condensation at pressures greater than 1.5 bars. Although the bulk mole fraction (about 2 percent) of CH4 is 20-30 times its solar value on both planets, it drops to its saturation limit (about 0.0001) at the Uranus tropopause, but remains high (about 2 percent) at the Neptune tropopause. This results in much greater mixing ratios of the product hydrocarbons in the stratosphere of Neptune. On both planets, the photolysis products of CH4 undergo condensation near the tropopause and the upper stratosphere. Voyager observations of the hydrocarbons at Uranus and those planned at Neptune are discussed, along with their implications for upper-atmospheric physics and thermochemistry.
Uranus photochemistry and prospects for Voyager 2 at Neptune
Advances in Space Research ; 10 , 1, 19
1990-01-01
Sonstige
Keine Angabe
Englisch
Uranus photochemistry and prospects for Voyager 2 at Neptune
Elsevier | 1989
|Voyager 2 Uranus and Neptune targeting
NTRS | 1982
|Voyager 2 Uranus and Neptune targeting
AIAA | 1982
|Voyager 2 navigation to Uranus and Neptune
AIAA | 1982
|Voyager 2 navigation to Uranus and Neptune
NTRS | 1982
|