Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry

We present the current progress in developing a reflectron-type time-of-flight laser ablation ionization mass spectrometer (RTOF-LIMS) to allow for direct sensitive microanalysis of lunar regolith grains in situ on the lunar surface. The LIMS system will operate in the lunar south pole region on a C...

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Published in:2024 IEEE Aerospace Conference
Main Authors: Keresztes Schmidt, Peter, Hayoz, Sébastien, Piazza, Daniele, Bandy, Timothy, Mändli, Patrik, Blaukovitsch, Matthias, Althaus, Michael, Plet, Benoît Gabriel, Riedo, Sven, Studer, Simon, Studer, Olivier, Bieri, Michael, Tulej, Marek, Riedo, Andreas, Wurz, Peter
Format: Conference Object
Language:English
Published: IEEE 2024
Subjects:
530 Physics
520 Astronomy
620 Engineering
South Pole
South pole
Online Access:https://boris.unibe.ch/197502/1/Sample_handling_concept_for_in-situ_lunar_regolith_analysis_by_laser-based_mass_spectrometry.pdf
https://boris.unibe.ch/197502/
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spelling ftunivbern:oai:boris.unibe.ch:197502 2024-06-23T07:56:51+00:00 Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry Keresztes Schmidt, Peter Hayoz, Sébastien Piazza, Daniele Bandy, Timothy Mändli, Patrik Blaukovitsch, Matthias Althaus, Michael Plet, Benoît Gabriel Riedo, Sven Studer, Simon Studer, Olivier Bieri, Michael Tulej, Marek Riedo, Andreas Wurz, Peter 2024 application/pdf https://boris.unibe.ch/197502/1/Sample_handling_concept_for_in-situ_lunar_regolith_analysis_by_laser-based_mass_spectrometry.pdf https://boris.unibe.ch/197502/ eng eng IEEE https://boris.unibe.ch/197502/ info:eu-repo/semantics/restrictedAccess Keresztes Schmidt, Peter; Hayoz, Sébastien; Piazza, Daniele; Bandy, Timothy; Mändli, Patrik; Blaukovitsch, Matthias; Althaus, Michael; Plet, Benoît Gabriel; Riedo, Sven; Studer, Simon; Studer, Olivier; Bieri, Michael; Tulej, Marek; Riedo, Andreas; Wurz, Peter (2024). Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry. In: 2024 IEEE Aerospace Conference (pp. 1-10). IEEE 10.1109/aero58975.2024.10521190 <http://dx.doi.org/10.1109/aero58975.2024.10521190> 530 Physics 520 Astronomy 620 Engineering info:eu-repo/semantics/conferenceObject info:eu-repo/semantics/publishedVersion PeerReviewed 2024 ftunivbern https://doi.org/10.1109/aero58975.2024.10521190 2024-06-11T14:13:51Z We present the current progress in developing a reflectron-type time-of-flight laser ablation ionization mass spectrometer (RTOF-LIMS) to allow for direct sensitive microanalysis of lunar regolith grains in situ on the lunar surface. The LIMS system will operate in the lunar south pole region on a CLPS mission within NASA’s Artemis program.The concept for the regolith sample handling system, which is based on a carousel disk system with a cavity to hold the sample material, will be discussed in detail. Rotating the disk takes care of transporting the sample material from the sample inlet, into which a sample delivery system of the CLPS platform deposits the regolith, to the analysis position below the mass analyzer entrance and, subsequently, disposing the material after analysis is completed. Sample preparation is achieved by passive brushes and a shaping tool to create a sample surface with the necessary planarity. Accurate control of these parameters is important to ensure consistent laser ablation conditions during sample analysis and thus reproducible chemical composition determination of the sample material. The new sample handling system design has an improved acceptance range for larger regolith grain sizes up to ~ 1 mm Ø. This in turn reduces a possible sampling bias and should lead to a more representative analysis of the regolith’s chemical composition. Sample disposal is realized by another set of brushes to clean out the cavity and to allow for new sample material to be deposited.To verify the feasibility of the sample handling concept and guiding the development thereof, laboratory experiments on a lunar regolith simulant were conducted using a prototype LIMS system. This prototype system has capabilities representative of the flight instrument currently in development regarding the mass analyzer and optical sub-system. The laboratory and flight optical sub-system is based on a microchip Nd:YAG laser system (~ 1.5 ns pulse width, λ = 532 nm, 100 Hz laser pulse repetition rate, laser irradiance ~ 1 ... Conference Object South pole BORIS (Bern Open Repository and Information System, University of Bern) South Pole 2024 IEEE Aerospace Conference 1 10
institution Open Polar
collection BORIS (Bern Open Repository and Information System, University of Bern)
op_collection_id ftunivbern
language English
topic 530 Physics
520 Astronomy
620 Engineering
spellingShingle 530 Physics
520 Astronomy
620 Engineering
Keresztes Schmidt, Peter
Hayoz, Sébastien
Piazza, Daniele
Bandy, Timothy
Mändli, Patrik
Blaukovitsch, Matthias
Althaus, Michael
Plet, Benoît Gabriel
Riedo, Sven
Studer, Simon
Studer, Olivier
Bieri, Michael
Tulej, Marek
Riedo, Andreas
Wurz, Peter
Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
topic_facet 530 Physics
520 Astronomy
620 Engineering
description We present the current progress in developing a reflectron-type time-of-flight laser ablation ionization mass spectrometer (RTOF-LIMS) to allow for direct sensitive microanalysis of lunar regolith grains in situ on the lunar surface. The LIMS system will operate in the lunar south pole region on a CLPS mission within NASA’s Artemis program.The concept for the regolith sample handling system, which is based on a carousel disk system with a cavity to hold the sample material, will be discussed in detail. Rotating the disk takes care of transporting the sample material from the sample inlet, into which a sample delivery system of the CLPS platform deposits the regolith, to the analysis position below the mass analyzer entrance and, subsequently, disposing the material after analysis is completed. Sample preparation is achieved by passive brushes and a shaping tool to create a sample surface with the necessary planarity. Accurate control of these parameters is important to ensure consistent laser ablation conditions during sample analysis and thus reproducible chemical composition determination of the sample material. The new sample handling system design has an improved acceptance range for larger regolith grain sizes up to ~ 1 mm Ø. This in turn reduces a possible sampling bias and should lead to a more representative analysis of the regolith’s chemical composition. Sample disposal is realized by another set of brushes to clean out the cavity and to allow for new sample material to be deposited.To verify the feasibility of the sample handling concept and guiding the development thereof, laboratory experiments on a lunar regolith simulant were conducted using a prototype LIMS system. This prototype system has capabilities representative of the flight instrument currently in development regarding the mass analyzer and optical sub-system. The laboratory and flight optical sub-system is based on a microchip Nd:YAG laser system (~ 1.5 ns pulse width, λ = 532 nm, 100 Hz laser pulse repetition rate, laser irradiance ~ 1 ...
format Conference Object
author Keresztes Schmidt, Peter
Hayoz, Sébastien
Piazza, Daniele
Bandy, Timothy
Mändli, Patrik
Blaukovitsch, Matthias
Althaus, Michael
Plet, Benoît Gabriel
Riedo, Sven
Studer, Simon
Studer, Olivier
Bieri, Michael
Tulej, Marek
Riedo, Andreas
Wurz, Peter
author_facet Keresztes Schmidt, Peter
Hayoz, Sébastien
Piazza, Daniele
Bandy, Timothy
Mändli, Patrik
Blaukovitsch, Matthias
Althaus, Michael
Plet, Benoît Gabriel
Riedo, Sven
Studer, Simon
Studer, Olivier
Bieri, Michael
Tulej, Marek
Riedo, Andreas
Wurz, Peter
author_sort Keresztes Schmidt, Peter
title Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
title_short Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
title_full Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
title_fullStr Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
title_full_unstemmed Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
title_sort sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry
publisher IEEE
publishDate 2024
url https://boris.unibe.ch/197502/1/Sample_handling_concept_for_in-situ_lunar_regolith_analysis_by_laser-based_mass_spectrometry.pdf
https://boris.unibe.ch/197502/
geographic South Pole
geographic_facet South Pole
genre South pole
genre_facet South pole
op_source Keresztes Schmidt, Peter; Hayoz, Sébastien; Piazza, Daniele; Bandy, Timothy; Mändli, Patrik; Blaukovitsch, Matthias; Althaus, Michael; Plet, Benoît Gabriel; Riedo, Sven; Studer, Simon; Studer, Olivier; Bieri, Michael; Tulej, Marek; Riedo, Andreas; Wurz, Peter (2024). Sample handling concept for in-situ lunar regolith analysis by laser-based mass spectrometry. In: 2024 IEEE Aerospace Conference (pp. 1-10). IEEE 10.1109/aero58975.2024.10521190 <http://dx.doi.org/10.1109/aero58975.2024.10521190>
op_relation https://boris.unibe.ch/197502/
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1109/aero58975.2024.10521190
container_title 2024 IEEE Aerospace Conference
container_start_page 1
op_container_end_page 10
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