EPSC2021: European facility prepares for haul of samples returning from planetary bodies
The Institute of Planetary Research at DLR (German Aerospace Center) is starting construction of a new Sample Analysis Laboratory (SAL) dedicated to the study of rock and dust samples from planetary bodies such as asteroids and the Moon. The first phase will be operational by the end of 2022, on time to welcome samples collected by the Hayabusa2 mission, and fully ready by 2023. A status report will be presented today at the Europlanet Science Congress (EPSC) 2021.
The 2020s promise a bounty of new missions returning planetary samples to Earth for analysis. Scientists can learn a huge amount about planetary bodies by sending remote sensing orbiters, and even more by ‘in situ’ exploration with landers and rovers. However, sensitive laboratory instruments on Earth can extract information far beyond the reach of current robotic technology, enabling researchers to determine the chemical, isotopic, mineralogical, structural and physical properties of extra-terrestrial material from just a single, tiny sample.
‘The SAL facility will allow us to study samples from a macroscopic level down to the nanometric scale and help us answer key question about the formation and evolution of planetary bodies,’ said Dr Enrica Bonato from DLR. ‘Sample return provides us with “ground truth” about the visited body, verifying and validating conclusions that can be drawn by remote sensing. SAL will unlock some really exciting science, like looking for traces of water and organic matter, especially in the samples returned from asteroids. These are remnants of “failed” planets, so provide material that gives insights into the early stages of the Solar System and planetary evolution.’
The establishment of SAL has taken three years’ planning and the facility will see its first instruments delivered in summer 2022. The state-of-the art equipment will allow researchers to image the rock samples at very high magnification and resolution, as well as to determine the chemical and mineralogical composition in great detail. The laboratory will be classified as a “super-clean” facility, with a thousand times fewer particles per cubic metre permitted than in a standard clean room. Protective equipment will be worn by everyone entering in order to keep the environment as clean as possible, and SAL will be equipped with glove boxes for handling and preparation of the samples. All samples will be stored under dry nitrogen and transported between the instruments in dry nitrogen filled containers.
Together with other laboratory facilities within the Institute of Planetary Research (including the Planetary Spectroscopy Laboratory and Planetary Analogue Simulation Laboratory), the new SAL will be open to the scientific community for “transnational access” visits supported through the Europlanet 2024 Research Infrastructure.
The first studies at SAL will relate to two small, carbonaceous asteroids: Ryugu, samples from which were returned by JAXA’s Hayabusa2 mission in late 2020, and Bennu, from which NASA’s OSIRIS-REx mission will deliver samples back to Earth in 2023.
‘Hayabusa2 and OSIRIS-REx are in many ways sister missions, both in the kind of body being visited, and in the close cooperation of scientists and the sponsoring agencies. International collaboration is an important part of the sample return story, and becomes even more key when it comes to analysis,’ said Bonato. ‘We are also looking forward to receiving (and potentially curating) samples from Mars’s moon, Phobos, returned by JAXA’s Martian Moons eXploration (MMX) mission late in the decade. We also hope to receive samples at SAL from the Moon in the early part of the decade from China’s Chang’E 5 and 6 missions.’
A collaboration with the Natural History Museum and the Helmholtz Center Berlin in Berlin aims to establish an excellence centre for sample analysis in Berlin within the next 5-10 years. In the future, SAL could be expanded into a full curation facility.
‘Returned samples can be preserved for decades and used by future generations to answer questions we haven’t even thought of yet using laboratory instruments that haven’t even been imagined,’ added Jörn Helbert, Department Head of Planetary Laboratories at DLR.
Equipment to be installed in SAL:
Field Emission Gun Electron Microprobe Analyser (FEG-EMPA)Field Emission Gun Scanning Electron Microscope (FEG-SEM) equipped with:EDX detector for chemical mappingSTEM detectorX-ray Diffraction (XRD): Measurements of powdersμ-XRD for in situ analysis and mappingNon-ambient stage for dynamic experimentsPolarized light microscopeSupporting equipment for sample preparation and handling
Information on Transnational Access offered by the Europlanet 2024 Research Infrastructure (RI) can be found at: https://www.europlanet-society.org/europlanet-2024-ri/transnational-access-ta/
Europlanet 2024 RI has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 871149.
SAL follows the approach of a distributed European sample analysis and curation facility as discussed in the preliminary recommendations of EuroCares (European Curation of Astromaterials Returned from Exploration of Space) project, funded by the European Union’s Horizon 2020 research and innovation programme under grant agreement No 640190.
An example of extra-terrestrial material that will be analysed in SAL: the little glass vial is containing about 45 mg of lunar soil (regolith) returned to Earth in 1976 by the robotic soviet mission to the Moon Luna 24. Credit: DLR
NASA’s OSIRIS-REx mission preparing to touch the surface of asteroid Bennu. Credits: NASA/Goddard/University of Arizona
Enrica BonatoDLR, Berlin, Germanysal@dlr.de
Jörn HelbertDepartment Head of Planetary LaboratoriesDLR, Berlin, GermanyJoern.Helbert@dlr.de
EPSC2021 Press Officeepscemail@example.com
Notes for Editors
About the Europlanet Science Congress (EPSC)
The Europlanet Science Congress (https://www.epsc2021.eu/) formerly the European Planetary Science Congress, is the annual meeting place of the Europlanet Society. With a track record of 15 years, and regularly attracting around 1000 participants, EPSC is the largest planetary science meeting in Europe. It covers the entire range of planetary sciences with an extensive mix of talks, workshops and poster sessions, as well as providing a unique space for networking and exchanges of experiences.
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EPSC2021 is sponsored by Space: Science & Technology, a Science Partner Journal.
Since 2005, Europlanet (www.europlanet-society.org) has provided Europe’s planetary science community with a platform to exchange ideas and personnel, share research tools, data and facilities, define key science goals for the future, and engage stakeholders, policy makers and European citizens with planetary science.
The Europlanet 2024 Research Infrastructure (RI) has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 871149 to provide access to state-of-the-art research facilities and a mechanism to coordinate Europe’s planetary science community.
The Europlanet Society promotes the advancement of European planetary science and related fields for the benefit of the community and is open to individual and organisational members. The Europlanet Society is the parent organisation of the European Planetary Science Congress (EPSC).