A qualitative study of the retention and release of volatile gases in JSC-1A lunar soil simulant at room temperature under ultrahigh vacuum (UHV) conditions

E. L. Patrick, K. Mandt, S. Escobedo, G. Winters, J. Mitchell, B. Teolis | 2015 | Icarus

DOI 10.1016/j.icarus.2015.03.015

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Summary

This paper investigates the retention and release of volatile gases in JSC-1A lunar soil simulant under ultrahigh vacuum (UHV) conditions. The study simulates volatile gas flux from cometary impacts or lunar outgassing. Results show no retention of rare gases, slight retention of molecular gases, and surface retention of CO2 at room temperature. Trace atmospheric gases continued to evolve under UHV, and mechanical/optical probing increased gas release. The paper presents a study on the behavior of volatile compounds in the regolith of the Moon and Mars, focusing on the Jezero Crater on Mars. The research uses a combination of experimental simulations and computational models to understand how volatile compounds are retained and released under different environmental conditions. The study highlights the importance of understanding these processes for future planetary exploration missions, particularly for the search for signs of past life on Mars. The provided text appears to be a series of URLs and file paths related to image files, likely from a scientific or technical paper. The URLs point to images hosted on a server, with filenames like 'gr1.jpg', 'gr2.jpg', etc., suggesting th

Connected extracted records

These are the records this paper contributes to the simulant, returned sample, method, and property browsers.

Used simulants

JSC-1A

lunar soil simulant

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100% confidencepage 1

Returned samples

No returned samples extracted yet.

Experiments and measurements

volatile gas retention and release study

gas retention and release

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ultrahigh vacuum (UHV) conditions, mechanical and optical probing100% confidencepage 1

Document Image Association

Analytical

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Cross-reference the image filenames with the document's content to determine if, they are relevant.70% confidencepage 5

Gas Exposure Test

Pressure Measurement | Studying the interaction of JSC-1A with argon gas under vacuum conditions.

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Manual Valve Operation95% confidencepage 8

thermal desorption spectroscopy (TDS) of H2 O on JSC-1A samples under UHV conditions

volatile behavior simulation

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thermal desorption spectroscopy100% confidencepage 11

temperature programmed desorption (TPD) measurements on JSC-1A

volatile behavior simulation

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temperature programmed desorption100% confidencepage 11

CO2 retention experiments in JSC-1A under UHV conditions

volatile behavior simulation

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ultrahigh vacuum experiments100% confidencepage 11

volatile gas entrapment simulation in JSC-1A

volatile behavior simulation

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ground-based laboratory simulation100% confidencepage 12

mechanical operations simulation on JSC-1A

mechanical behavior simulation

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mechanical manipulation100% confidencepage 11

Measured properties

gas retention

slight retention of molecular gases

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gas behavior100% confidencepage 1

Document Association

The images are likely associated with a specific academic or technical document.

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Content85% confidencepage 5

Base Pressure

1.0 × 10⁻⁸ Torr

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System95% confidencepage 8

volatile gas retention

retention of CO2 in JSC-1A at room temperature

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volatile behavior100% confidencepage 11

volatile gas release

release of Ar and CO2 under UHV conditions

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volatile behavior100% confidencepage 12

temperature programmed desorption behavior

temperature programmed desorption (TPD) measurements on JSC-1A

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volatile behavior100% confidencepage 11

mechanical behavior

manipulation of lunar regolith fines or soil by mechanical means

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mechanical behavior100% confidencepage 11

space science heritage

mass spectrometry simulation for volatile interactions

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space science heritage100% confidencepage 12

Methods and applications

Methods

ultrahigh vacuum (UHV) conditionsmechanical and optical probingvolatile gas flux simulationThermal analysisGas chromatographyMass spectrometryX-ray diffractionIn-situ gas analysisThe text is primarily a series of URLs and file paths, which are likely used toreference images in a document or paper.Linear PlotLog PlotManual Valve OperationDSCDTAthermal desorption spectroscopytemperature programmed desorptionultrahigh vacuum experimentsground-based laboratory simulationmechanical manipulationmass spectrometry simulationwhite LED flashlightindividual LEDs with wavelength ratings of 635 nm (red), 587 nm (yellow), 565 nm430 nm (blue) and 405 nm (UV)quadrupole mass spectrometer (QMS)turbomolecular pumping systemsion pumpresidual gas analyzer (RGA)stainless steel UHV systemmulti-port miniature stainless steel vacuum chambergold plated copper gasketsthermocouple (TC) feedthroughrotary motion feedthroughsample cell assemblystainless steel flag for mechanical disturbancevacuum chamber testingsurface area analysisLED illuminationleak detectionthermal treatmentlog scale analysisgas exposuremechanical disturbancemechanical probingoptical probingTemperature Program Desorption (TPD)Microwave SinteringPhoton-Stimulated DesorptionIn Situ Analysis (VAPoR)Ion Neutral Mass Spectrometer (INMS)

Applications

space explorationlunar surface studiesvolatile gas behavior analysisPlanetary explorationSearch for past life on MarsUnderstanding volatile behavior in extraterrestrial environmentsThe text could be part of a larger system for hosting and retrieving imagesassociated with academic or technical documents.Identifying and tracking components within the ambient background of the system.Studying the interaction of JSC-1A with argon gas under vacuum conditions.Glass and ceramic manufacturingvolatile behavior simulationmechanical behavior simulationspace science heritage studieslunar regolith simulationvolatile gas analysisoptical probingvacuum system testinggas release studiesvolatility testingvacuum system analysissurface interaction analysismaterial characterizationLunar simulant testingGas retention studiesIonization analysislunar surface analysissimulated planetary environmentsadsorption analysisvolatile gas detectionlunar exosphere studiesgas retention mechanismsanalytical chemistryLunar habitat constructionIn-situ resource utilization (ISRU)Material science researchAstrobiology