The composition of the Jovian atmosphere as determined by the Galileo probe mass spectrometer

Abstract

The Galileo probe mass spectrometer determined the composition of the Jovian atmosphere for species with masses between 2 and 150 amu from 0.5 to 21.1 bars. This paper presents the results of analysis of some of the constituents detected: H₂, He, Ne, Ar, Kr, Xe, CH₄, NH₃, H₂O, H₂S, C₂ and C₃ nonmethane hydrocarbons, and possibly PH₃ and Cl. ⁴He/H₂ in the Jovian atmosphere was measured to be 0.157±0.030. ¹³C/¹²C was found to be 0.0108±0.0005, and D/H and ³He/⁴He were measured. Ne was depleted, ≤0.13 times solar, Ar ≤1.7 solar, Kr ≤5 solar, and Xe ≤5 solar. CH₄ has a constant mixing ratio of (2.1±0.4) × 10⁻³ (¹²C, 2.9 solar), where the mixing ratio is relative to H₂. Upper limits to the H₂O mixing ratio rose from 8 × 10⁻⁷ at pressures −5 (¹⁶O, 0.033±0.015 solar) at 11.7 bars and, provisionally, about an order of magnitude larger at 18.7 bars. The mixing ratio of H₂S was −6 at pressures less than 3.8 bars but rose from about 0.7 × 10⁻⁵ at 8.7 bars to about 7.7 × 10⁻⁵ (³²S, 2.5 solar) above 15 bars. Only very large upper limits to the NH₃ mixing ratio have been set at present. If PH₃ and Cl were present, their mixing ratios also increased with pressure. Species were detected at mass peaks appropriate for C₂ and C₃ hydrocarbons. It is not yet clear which of these were atmospheric constituents and which were instrumentally generated. These measurements imply (1) fractionation of ⁴He, (2) a local, altitude‐dependent depletion of condensables, probably because the probe entered the descending arm of a circulation cell, (3) that icy planetesimals made significant contributions to the volatile inventory, and (4) a moderate decrease in D/H but no detectable change in (D + ³He)/H in this part of the galaxy during the past 4.6 Gyr.