VMMO Lunar Volatile and Mineralogy Mapping Orbiter
Understanding the lunar near-surface distribution of relevant in-situ resources, such as ilmenite (FeTiO3), and volatiles, such as water/ice, is vital to future sustained manned bases. VMMO is a highly-capable, low-cost 12U Cubesat designed for operation in a lunar frozen orbit. It accomodates the L...
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ftusurrey:oai:epubs.surrey.ac.uk:849054 2023-05-15T18:23:10+02:00 VMMO Lunar Volatile and Mineralogy Mapping Orbiter Kruzelecky, Roman Murzionak, Piotr Lavoie, Jonathan Sinclair, Ian Schinn, Gregory Underwood, Craig Gao, Yang Bridges, Christopher Armellin, Roberto Luccafabris, Andrea Cloutis, Edward Leijtens, Johan 2018 text http://epubs.surrey.ac.uk/849054/1/__homes.surrey.ac.uk_home_.System_Desktop_ICES_2018_227.pdf en eng MPB Communications Inc. http://epubs.surrey.ac.uk/849054/ https://ttu-ir.tdl.org/ttu-ir/handle/2346/74182 http://epubs.surrey.ac.uk/849054/1/__homes.surrey.ac.uk_home_.System_Desktop_ICES_2018_227.pdf Kruzelecky, Roman, Murzionak, Piotr, Lavoie, Jonathan, Sinclair, Ian, Schinn, Gregory, Underwood, Craig, Gao, Yang, Bridges, Christopher, Armellin, Roberto, Luccafabris, Andrea, Cloutis, Edward and Leijtens, Johan (2018) VMMO Lunar Volatile and Mineralogy Mapping Orbiter In: 48th International Conference on Environmental Systems, 8-12 July 2018, Albuquerque, New Mexico. Conference or Workshop Item NonPeerReviewed 2018 ftusurrey 2019-12-14T07:46:20Z Understanding the lunar near-surface distribution of relevant in-situ resources, such as ilmenite (FeTiO3), and volatiles, such as water/ice, is vital to future sustained manned bases. VMMO is a highly-capable, low-cost 12U Cubesat designed for operation in a lunar frozen orbit. It accomodates the LVMM Lunar Volatile and Mineralogy Mapper and the CLAIRE Compact LunAr Ionising Radiation Environment payloads. LVMM is a multi-wavelength Chemical Lidar using fiber lasers emitting at 532nm and 1560nm, with an optional 1064nm channel, for stand-off mapping of the lunar ice distribution using active laser illumination, with a focus on the permanently-shadowed craters in the lunar south pole. This combination of spectral channels can provide sensitive discrimination of water/ice in various regolith. The fiber-laser technology has heritage in the ongoing Fiber Sensor Demonstrator flying on ESA's Proba-2. LVMM can also be used in a low-power passive mode with an added 280nm UV channel to map the lunar mineralogy and ilmenite distribution during the lunar day using the reflected solar illumination. CLAIRE is designed to provide a highly miniaturized radiation environment and effect monitor. CLAIRE draws on heritage from the MuREM and RM payloads, flown on the UK’s TDS-1 spacecraft. The payload includes PIN-diode sensors to measure ionizing particle fluxes (protons and heavy-ions) and to record the resulting linear energy transfer (LET) energy-deposition spectra. It also includes solid-state RADFET dosimeters to measure accumulated ionizing dose, and dose-rate diode detectors, designed to respond to a Coronal Mass Ejection (CME) or Solar Particle Event (SPE). CLAIRE also includes an electronic component test board, capable of measuring SEEs and TID effects in a selected set of candidate electronics, allowing direct correlations between effects and the real measured environment. Conference Object South pole University of Surrey, Guildford: Surrey Scholarship Online. South Pole |
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University of Surrey, Guildford: Surrey Scholarship Online. |
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language |
English |
description |
Understanding the lunar near-surface distribution of relevant in-situ resources, such as ilmenite (FeTiO3), and volatiles, such as water/ice, is vital to future sustained manned bases. VMMO is a highly-capable, low-cost 12U Cubesat designed for operation in a lunar frozen orbit. It accomodates the LVMM Lunar Volatile and Mineralogy Mapper and the CLAIRE Compact LunAr Ionising Radiation Environment payloads. LVMM is a multi-wavelength Chemical Lidar using fiber lasers emitting at 532nm and 1560nm, with an optional 1064nm channel, for stand-off mapping of the lunar ice distribution using active laser illumination, with a focus on the permanently-shadowed craters in the lunar south pole. This combination of spectral channels can provide sensitive discrimination of water/ice in various regolith. The fiber-laser technology has heritage in the ongoing Fiber Sensor Demonstrator flying on ESA's Proba-2. LVMM can also be used in a low-power passive mode with an added 280nm UV channel to map the lunar mineralogy and ilmenite distribution during the lunar day using the reflected solar illumination. CLAIRE is designed to provide a highly miniaturized radiation environment and effect monitor. CLAIRE draws on heritage from the MuREM and RM payloads, flown on the UK’s TDS-1 spacecraft. The payload includes PIN-diode sensors to measure ionizing particle fluxes (protons and heavy-ions) and to record the resulting linear energy transfer (LET) energy-deposition spectra. It also includes solid-state RADFET dosimeters to measure accumulated ionizing dose, and dose-rate diode detectors, designed to respond to a Coronal Mass Ejection (CME) or Solar Particle Event (SPE). CLAIRE also includes an electronic component test board, capable of measuring SEEs and TID effects in a selected set of candidate electronics, allowing direct correlations between effects and the real measured environment. |
format |
Conference Object |
author |
Kruzelecky, Roman Murzionak, Piotr Lavoie, Jonathan Sinclair, Ian Schinn, Gregory Underwood, Craig Gao, Yang Bridges, Christopher Armellin, Roberto Luccafabris, Andrea Cloutis, Edward Leijtens, Johan |
spellingShingle |
Kruzelecky, Roman Murzionak, Piotr Lavoie, Jonathan Sinclair, Ian Schinn, Gregory Underwood, Craig Gao, Yang Bridges, Christopher Armellin, Roberto Luccafabris, Andrea Cloutis, Edward Leijtens, Johan VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
author_facet |
Kruzelecky, Roman Murzionak, Piotr Lavoie, Jonathan Sinclair, Ian Schinn, Gregory Underwood, Craig Gao, Yang Bridges, Christopher Armellin, Roberto Luccafabris, Andrea Cloutis, Edward Leijtens, Johan |
author_sort |
Kruzelecky, Roman |
title |
VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
title_short |
VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
title_full |
VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
title_fullStr |
VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
title_full_unstemmed |
VMMO Lunar Volatile and Mineralogy Mapping Orbiter |
title_sort |
vmmo lunar volatile and mineralogy mapping orbiter |
publisher |
MPB Communications Inc. |
publishDate |
2018 |
url |
http://epubs.surrey.ac.uk/849054/1/__homes.surrey.ac.uk_home_.System_Desktop_ICES_2018_227.pdf |
geographic |
South Pole |
geographic_facet |
South Pole |
genre |
South pole |
genre_facet |
South pole |
op_relation |
http://epubs.surrey.ac.uk/849054/ https://ttu-ir.tdl.org/ttu-ir/handle/2346/74182 http://epubs.surrey.ac.uk/849054/1/__homes.surrey.ac.uk_home_.System_Desktop_ICES_2018_227.pdf Kruzelecky, Roman, Murzionak, Piotr, Lavoie, Jonathan, Sinclair, Ian, Schinn, Gregory, Underwood, Craig, Gao, Yang, Bridges, Christopher, Armellin, Roberto, Luccafabris, Andrea, Cloutis, Edward and Leijtens, Johan (2018) VMMO Lunar Volatile and Mineralogy Mapping Orbiter In: 48th International Conference on Environmental Systems, 8-12 July 2018, Albuquerque, New Mexico. |
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1766202702772043776 |