Sample Analysis at Mars

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File:Sample Analysis at Mars MSL.jpg
Sample Analysis at Mars for MSL

Sample Analysis at Mars (SAM) is a suite of instruments on the Mars Science Laboratory Curiosity rover. The SAM instrument suite will analyze organics and gases from both atmospheric and solid samples.[1][2] It was developed by the NASA Goddard Space Flight Center, the Laboratoire des Atmosphères Milieux Observations Spatiales (LATMOS) associated to the Laboratoire Inter-Universitaire des Systèmes Atmosphériques (LISA) (jointly operated by France's Centre national de la recherche scientifique and Parisian universities), and Honeybee Robotics, along with many additional external partners.[1][3][4]

Instruments

File:PIA16816-MarsCuriosityRover-theSAMsuite.jpg
The SAM Suite

The SAM suite consists of three instruments:

  1. The Quadrupole Mass Spectrometer (QMS) detects gases sampled from the atmosphere or those released from solid samples by heating.[1][5]
  2. The Gas Chromatograph (GC) is used to separate out individual gases from a complex mixture into molecular components. The resulting gas flow is analyzed in the mass spectrometer with a mass range of 2-535 Daltons.[1][5]
  3. The Tunable Laser Spectrometer (TLS) performs precision measurements of oxygen and carbon isotope ratios in carbon dioxide (CO2) and methane (CH4) in the atmosphere of Mars in order to distinguish between their geochemical or biological origin.[1][4][5][6][7]

Subsystems

The SAM also has three subsystems: the 'Chemical separation and processing laboratory', for enrichment and derivatization of the organic molecules of the sample; the sample manipulation system (SMS) for transporting powder delivered from the MSL drill to a SAM inlet and into one of 74 sample cups.[1] The SMS then moves the sample to the SAM oven to release gases by heating to up to 1000oC;[1][8] and the pump subsystem to purge the separators and analysers.

The Space Physics Research Laboratory at the University of Michigan built the main power supply, command and data handling unit, valve and heater controller, filament/bias controller, and high voltage module. The uncooled infrared detectors were developed and provided by the Polish company VIGO System.[9]

Timeline

  • 9 November 2012: A pinch of fine sand and dust became the first solid Martian sample deposited into the SAM. The sample came from the patch of windblown material called Rocknest, which had provided a sample previously for mineralogical analysis by CheMin instrument.[10]
  • 3 December 2012: NASA reported SAM had detected water molecules, chlorine and sulphur. Hints of organic compounds couldn't be ruled out as contamination from Curiosity itself, however.[11][12]
  • 16 December 2014: NASA reported the Curiosity rover detected a "tenfold spike", likely localized, in the amount of methane in the Martian atmosphere. Sample measurements taken "a dozen times over 20 months" showed increases in late 2013 and early 2014, averaging "7 parts of methane per billion in the atmosphere." Before and after that, readings averaged around one-tenth that level.[13][14] In addition, high levels of organic chemicals, particularly chlorobenzene, were detected in powder drilled from one of the rocks, named "Cumberland", analyzed by the Curiosity rover.[13][14]
  • 24 March 2015: NASA reported the first detection of nitrogen released after heating surface sediments on the planet Mars. The nitrogen in nitrate is in a "fixed" state, meaning that it is in an oxidized form that can be used by living organisms. The discovery supports the notion that ancient Mars may have been habitable for life.[15][16][17]
  • 4 April 2015: NASA reported studies, based on measurements by the Sample Analysis at Mars (SAM) instrument on the Curiosity rover, of the Martian atmosphere using xenon and argon isotopes. Results provided support for a "vigorous" loss of atmosphere early in the history of Mars and were consistent with an atmospheric signature found in bits of atmosphere captured in some Martian meteorites found on Earth.[18]
Methane measurements in the atmosphere of Mars
by the Curiosity rover (August 2012 to September 2014).
Methane (CH4) on Mars - potential sources and sinks.
Comparison of Organics in Martian rocks - Chlorobenzene levels were much higher in the "Cumberland" rock sample.
Detection of Organics in the "Cumberland" rock sample.
Spectral Analysis (SAM) of "Cumberland" rock.

Gallery

Videos

File:Sample Analysis at Mars (SAM) Interview Clips.ogv
Interview with Paul Mahaffy, Sample Analysis at Mars (SAM) principal investigator.
File:The Mars Chamber.ogv
Scientists and engineers use the Mars chamber to test specimens on the SAM instrument.

References

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  2. Overview of the SAM instrument suite
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External links

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