Searching for brine on Mars using Raman spectroscopy

  • Erik Fischer Department of Climate and Space Sciences and Engineering, University of Michigan, Ann Arbor, MI, USA,
DOI: https://doi.org/10.5209/rev_FITE.2016.v28.53903
Keywords: Mars, water, brine, Raman spectroscopy, perchlorate.

Abstract

In the last few years, water ice and perchlorate salts capable of melting this ice and producing liquid solutions have been discovered at the surface and shallow subsurface of Mars. In addition to via melting of ice, perchlorate salts may also form liquid solutions by absorbing water vapor when the relative humidity is above a certain threshold in a process known as deliquescence. Formed either by melting or deliquescence, liquid solutions (brine) are the most likely way of liquid water activity on the Martian surface and in the shallow subsurface and are therefore important to understand the habitability of Mars. Using Raman spectroscopy, we provide reference spectra of various mixing states of liquid water, water ice and calcium perchlorate, all of which can occur during brine formation. We focus on the perchlorate symmetric stretching band and the O-H stretching vibrational band to distinguish brine from crystalline salt and water ice. We show that perchlorate brines can be identified by analyzing the peaks and their widths in the decomposed Raman spectra of the investigated samples. This serves as an important reference for future in-situ Raman spectrometers on Mars, such as those on the ExoMars and Mars 2020 rovers and can aid in the detection of brine formation on Mars.

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Published
2016-10-14
How to Cite
Fischer E. (2016). Searching for brine on Mars using Raman spectroscopy. Física de la Tierra, 28, 181-195. https://doi.org/10.5209/rev_FITE.2016.v28.53903
Issue
Vol. 28 (2016): Mars: A multidisciplinary scientific approach
Section
Articles

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