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Ammonia-water ice laboratory studies relevant to outer Solar System surfaces
Authors:M.H. Moore  R.F. Ferrante  J.N. Stone
Affiliation:a Code 691, Astrochemistry Branch, NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA
b Department of Chemistry, US Naval Academy, Annapolis, MD 21402, USA
c Department of Chemistry, Eckerd College, St. Petersburg, FL 33733, USA
Abstract:Although water- and ammonia-ices have been observed or postulated as important components of the icy surfaces of planetary satellites in the outer Solar System, significant gaps exist in our knowledge of the spectra and behavior of such mixtures under astrophysical conditions. To that end, we have completed low-temperature spectroscopic studies (1-20 μm) of water-ammonia mixtures, with an emphasis on features in the near-IR, a region which is accessible to ground-based observations. The influences of composition, formation temperature, thermal- and radiation-processing, and phase (crystalline or amorphous) of the components were examined. Spectra of both pure NH3 and H2O-NH3 icy mixtures with ratios from 0.7 to 57 were measured at temperatures from 10 to 120 K. Conditions for the formation and thermal stability of the ammonia hemihydrate (2NH3⋅H2O) and the ammonia monohydrate (NH3⋅H2O) have been examined. Band positions of NH3 in different H2O-ices and major band positions of the hydrates were measured. We report spectral shifts that depend on concentration and temperature. The radiation-induced amorphization of the hemihydrate was observed and the radiation destruction of NH3 in H2O-ices was measured. Implications of these results for the formation, stability, and detection of ammonia on outer satellite surfaces are discussed.
Keywords:Ices   Charon   Trans-neptunian objects   Satellites, surfaces   Spectroscopy
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