Abstract

Estimates of the Tropospheric Vertical Structure of Neptune Based on Microwave Radiative Transfer Studies

David R. DeBoer and Paul. G. Steffes

Georgia Institute of Technology

School of Electrical and Computer Engineering

Atlanta, Georgia 30332-0250

 

A radiative transfer model incorporating, among other things, the recently measured centimeter wavelength opacity of H2S, the full line catalog of PH3, and absorption due to CO has been developed to study the tropospheric vertical structure of Neptune. To match radio-telescope observations, subsolar amounts of NH3 and supersolar amounts of H2S are found to be needed, as has been previously noted. To match both the measured microwave emission and the measured opacity at 13 cm and 6.3 bars by Voyager 2, an H2S dominant atmosphere (H2S/NH3 ~ 40) with enhanced PH3 (15 × solar) or NH3 supersaturation with respect to the putative NH4SH cloud (400 ppbv) seems to be indicated. Due to the possible importance of PH3 opacity, it is suggested that measurements of its opacity could aid in resolving some of the outstanding ambiguities concerning Neptune's tropospheric structure.

 

For full paper: Icarus, v. 123, October 1996, pp. 324-335 (ID IS960161)

 

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