Abstract
The clouds of Venus are believed to be composed of sulfuric acid (H(2)SO(4)) and minor constituents including iron-bearing compounds, and their respective concentrations vary with height in the thick Venusian atmosphere. This study experimentally investigates possible iron-bearing mineral phases that are stable under the unique conditions within Venusian clouds. Our results demonstrate that ferric iron can react with sulfuric acid to form two mineral phases: rhomboclase [(H(5)O(2))Fe(SO(4))(2)·3H(2)O] and acid ferric sulfate [(H(3)O)Fe(SO(4))(2)]. A combination of these two mineral phases and dissolved Fe(3+) in varying concentrations of sulfuric acid are shown to be good candidates for explaining the 200- to 300-nm and 300- to 500-nm features of the reported unknown UV absorber. We, therefore, hypothesize a rich and largely unexplored heterogeneous chemistry in the cloud droplets of Venus that has a large effect on the optical properties of the clouds and the behavior of trace gas species throughout Venus's atmosphere.