Mars 2020 Team Using Australian Rocks in Search for Life on Mars

Abstract: Scientists are investigating evidence of ancient terrestrial microbes preserved in Australia as well as mineral maps derived from Mars orbiter data to shed light on how to search for life on Mars.

“…Importantly, Raman spectroscopy is capable of identifying a particular phase of forsterite by careful analysis of the peak centers of the olivine doublet [25] between 800 and 880 cm −1 . Likewise, characterization of other minerals yields valuable information as well, such as determination of the bulk composition of radioactive 26 Al by quantification of feldspar composition [26] and determination of the prevalence of aqueous environments and pH by quantification of evaporitic minerals such as carbonate [27,28] and sulfate [29,30] minerals.…”

One‐mirror, one‐grating spatial heterodyne spectrometer for remote‐sensing Raman spectroscopy

“…Importantly, Raman spectroscopy is capable of identifying a particular phase of forsterite by careful analysis of the peak centers of the olivine doublet [25] between 800 and 880 cm −1 . Likewise, characterization of other minerals yields valuable information as well, such as determination of the bulk composition of radioactive 26 Al by quantification of feldspar composition [26] and determination of the prevalence of aqueous environments and pH by quantification of evaporitic minerals such as carbonate [27,28] and sulfate [29,30] minerals.…”

One‐mirror, one‐grating spatial heterodyne spectrometer for remote‐sensing Raman spectroscopy