Creation of Lunar and Hermean analogue mineral powder samples for solar wind irradiation experiments and mid-infrared spectra analysis

The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and meteoroids. This high-energy space environment alters the surfaces and creates a tenuous atmosphere of ejected particles surrounding the celestial bodies. Experiments with well characterized analogue...

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Published inIcarus (New York, N.Y. 1962) Vol. 365; p. 114492
Main Authors Jäggi, Noah, Galli, André, Wurz, Peter, Biber, Herbert, Szabo, Paul Stefan, Brötzner, Johannes, Aumayr, Friedrich, Tollan, Peter Michael Edward, Mezger, Klaus
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.09.2021
Subjects
Experimental techniques
Mercury, surface
Moon, surface
Solar wind
Spectroscopy
Spectroscopy
Experimental techniques
Moon, surface
Solar wind
Mercury, surface
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Abstract The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and meteoroids. This high-energy space environment alters the surfaces and creates a tenuous atmosphere of ejected particles surrounding the celestial bodies. Experiments with well characterized analogue materials under controlled laboratory conditions are needed to interpret the observations of these atmospheres and improve composition models of such bodies. This study presents methods to create and analyze mineral powder pellets for ion irradiation experiments relevant for rocky planetary bodies including the Moon and Mercury. These include the pyroxenes diopside and enstatite, the plagioclase labradorite and the non-analogue pyroxenoid wollastonite. First ion irradiation experiments with diopside, enstatite and wollastonite pellets were performed under UHV with 4 keV He+ at fluences of several 1021ionsm−2 (~100 and ~1000 years for Mercury and the Moon, respectively). The pellet's thermal IR reflectance properties were compared before and after irradiation showing monotonously shifting IR spectral features between 7 − 14μm towards higher wavelengths. For all irradiated pellets, Reststrahlen bands shifted by ~0.03μm. Surface abrasion was found to remove the sputter effect, which is restricted to the top few tens of nm of the surface. Additionally, ion irradiation experiments were performed in a quartz crystal microbalance catcher setup, where the mass sputtered from pellets was monitored. This proves, that the presented sample preparation method allows the study of irradiation induced sputtering and surface alteration on the surfaces of rocky planets under laboratory conditions.
AbstractList The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and meteoroids. This high-energy space environment alters the surfaces and creates a tenuous atmosphere of ejected particles surrounding the celestial bodies. Experiments with well characterized analogue materials under controlled laboratory conditions are needed to interpret the observations of these atmospheres and improve composition models of such bodies. This study presents methods to create and analyze mineral powder pellets for ion irradiation experiments relevant for rocky planetary bodies including the Moon and Mercury. These include the pyroxenes diopside and enstatite, the plagioclase labradorite and the non-analogue pyroxenoid wollastonite. First ion irradiation experiments with diopside, enstatite and wollastonite pellets were performed under UHV with 4 keV He+ at fluences of several 1021ionsm−2 (~100 and ~1000 years for Mercury and the Moon, respectively). The pellet's thermal IR reflectance properties were compared before and after irradiation showing monotonously shifting IR spectral features between 7 − 14μm towards higher wavelengths. For all irradiated pellets, Reststrahlen bands shifted by ~0.03μm. Surface abrasion was found to remove the sputter effect, which is restricted to the top few tens of nm of the surface. Additionally, ion irradiation experiments were performed in a quartz crystal microbalance catcher setup, where the mass sputtered from pellets was monitored. This proves, that the presented sample preparation method allows the study of irradiation induced sputtering and surface alteration on the surfaces of rocky planets under laboratory conditions.
ArticleNumber 114492
Author Brötzner, Johannes
Aumayr, Friedrich
Wurz, Peter
Mezger, Klaus
Szabo, Paul Stefan
Jäggi, Noah
Galli, André
Biber, Herbert
Tollan, Peter Michael Edward
Author_xml – sequence: 1
  givenname: Noah
  surname: Jäggi
  fullname: Jäggi, Noah
  email: noah.jaeggi@space.unibe.ch
  organization: Physikalisches Institut, Universität Bern, Sidlerstrasse 5, CH-3012 Bern, Switzerland
– sequence: 2
  givenname: André
  surname: Galli
  fullname: Galli, André
  organization: Physikalisches Institut, Universität Bern, Sidlerstrasse 5, CH-3012 Bern, Switzerland
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  givenname: Peter
  surname: Wurz
  fullname: Wurz, Peter
  organization: Physikalisches Institut, Universität Bern, Sidlerstrasse 5, CH-3012 Bern, Switzerland
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  givenname: Herbert
  surname: Biber
  fullname: Biber, Herbert
  organization: Institut für Angewandte Physik, TU Wien, Wiedner Hauptstraße 8-10/E134, A-1040 Vienna, Austria
– sequence: 5
  givenname: Paul Stefan
  surname: Szabo
  fullname: Szabo, Paul Stefan
  organization: Institut für Angewandte Physik, TU Wien, Wiedner Hauptstraße 8-10/E134, A-1040 Vienna, Austria
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  givenname: Johannes
  surname: Brötzner
  fullname: Brötzner, Johannes
  organization: Institut für Angewandte Physik, TU Wien, Wiedner Hauptstraße 8-10/E134, A-1040 Vienna, Austria
– sequence: 7
  givenname: Friedrich
  surname: Aumayr
  fullname: Aumayr, Friedrich
  organization: Institut für Angewandte Physik, TU Wien, Wiedner Hauptstraße 8-10/E134, A-1040 Vienna, Austria
– sequence: 8
  givenname: Peter Michael Edward
  surname: Tollan
  fullname: Tollan, Peter Michael Edward
  organization: Institut für Geologie, Universität Bern, Baltzerstrasse 1 + 3, CH-3012 Bern, Switzerland
– sequence: 9
  givenname: Klaus
  surname: Mezger
  fullname: Mezger, Klaus
  organization: Institut für Geologie, Universität Bern, Baltzerstrasse 1 + 3, CH-3012 Bern, Switzerland
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Keywords Spectroscopy
Experimental techniques
Moon, surface
Solar wind
Mercury, surface
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Snippet The surfaces of airless planetary bodies are subject to a barrage of charged particles, photons, and meteoroids. This high-energy space environment alters the...
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elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 114492
SubjectTerms Experimental techniques
Mercury, surface
Moon, surface
Solar wind
Spectroscopy
Title Creation of Lunar and Hermean analogue mineral powder samples for solar wind irradiation experiments and mid-infrared spectra analysis
URI https://dx.doi.org/10.1016/j.icarus.2021.114492
Volume 365
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