Publication
Names
  • S. De Angelis
  • F. Tosi
  • C. Carli
  • P. Beck
  • O. Brissaud
  • B. Schmitt
  • G. Piccioni
  • M.~C. De Sanctis
  • F. Capaccioni
Title
VIS-IR spectroscopy of magnesium chlorides at cryogenic temperatures
Abstract
Chlorinated compounds have been recently identified or suggested to exist in a number of planetary bodies such as Ceres, Europa, Ganymede, Enceladus and Mars, on the basis of remote sensing and in-situ measurements as well as Earth-based telescopic observations. Sodium and magnesium-bearing chlorinated compounds with different levels of hydration have been suggested to reach the surface of these bodies through ascending flows from the interior; thus, such materials could be geochemically related to the putative presence of subsurface liquid reservoirs and could bring precious information about those layers' salty composition. Laboratory spectroscopic data of chlorinated salts carried out at temperatures representative of real planetary bodies, fundamental to correctly interpret the observational data, are currently missing or incomplete. Here we present laboratory reflectance spectra of two hydrated magnesium chlorides, namely MgCl$_2$•2H$_2$O and MgCl$_2$•6H$_2$O, measured at three different grain sizes and at twelve temperature values in the range 80–295 K. All spectra have been measured in the visible and infrared spectral range 0.5–4.7 μm. We examined the absorption features and related spectral parameters as a function of both temperature and grain size. These reflectance spectra, as far as the infrared range beyond 2.5 μm is concerned, are the first measured and published at cryogenic temperatures, therefore these data may prove very useful for the interpretation and modeling of remote sensing spectral data from planetary missions. In particular, this new dataset will be helpful in applying spectral unmixing models to past and future observations of some icy satellites, Mars, Ceres, and possibly other Solar System bodies.
Keywords
spectroscopy, bidirectional reflectance spectra, visible, near-IR, grain size, temperature, band position, band depth, band width, band area, band assignment, mineral, MgCl2•2H2O, MgCl2•6H2O, magnesium chloride dihydrate, magnesium chloride hexahydrate, bischofite
Content
spectral data, spectral data use, planetary sciences
Year
2022
Journal
Icarus
Volume
373
Pages
114756
Pages number
16
Document type
article
Publication state
published