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dc.contributor.authorHamran, Svein-Eriken_GB
dc.contributor.authorPaige, David A.en_GB
dc.contributor.authorAmundsen, Hans E. Fossen_GB
dc.contributor.authorBerger, Toren_GB
dc.contributor.authorBrovoll, Sverreen_GB
dc.contributor.authorCarter, Lynnen_GB
dc.contributor.authorHanssen, Leifen_GB
dc.contributor.authorDypvik, Henningen_GB
dc.contributor.authorEide, Joen_GB
dc.contributor.authorEide, Sigurden_GB
dc.contributor.authorGhent, Rebeccaen_GB
dc.contributor.authorHelleren, Øysteinen_GB
dc.contributor.authorKohler, Jacken_GB
dc.contributor.authorMellon, Mikeen_GB
dc.contributor.authorNunes, Daniel C.en_GB
dc.contributor.authorPlettemeier, Dirken_GB
dc.contributor.authorRowe, Kathrynen_GB
dc.contributor.authorRussell, Patricken_GB
dc.contributor.authorØyan, Mats Jørgenen_GB
dc.date.accessioned2020-12-01T13:11:32Z
dc.date.accessioned2020-12-14T12:55:51Z
dc.date.available2020-12-01T13:11:32Z
dc.date.available2020-12-14T12:55:51Z
dc.date.issued2020-11-03
dc.identifier.citationHamran, Paige, Amundsen, Berger, Brovoll, Carter, Hanssen, Dypvik, Eide, Eide, Ghent, Helleren, Kohler, Mellon, Nunes, Plettemeier, Rowe, Russell, Øyan. Radar imager for Mars’ subsurface experiment—RIMFAX. Space Science Reviews. 2020;216:128(8):1-39en_GB
dc.identifier.urihttp://hdl.handle.net/20.500.12242/2808
dc.descriptionHamran, Svein-Erik; Paige, David A.; Amundsen, Hans E. Foss; Berger, Tor; Brovoll, Sverre; Carter, Lynn; Hanssen, Leif; Dypvik, Henning; Eide, Jo; Eide, Sigurd; Ghent, Rebecca; Helleren, Øystein; Kohler, Jack; Mellon, Mike; Nunes, Daniel C.; Plettemeier, Dirk; Rowe, Kathryn; Russell, Patrick; Øyan, Mats Jørgen. Radar imager for Mars’ subsurface experiment—RIMFAX. Space Science Reviews 2020 ;Volum 216.(8) s.en_GB
dc.description.abstractThe Radar Imager for Mars’ Subsurface Experiment (RIMFAX) is a Ground Penetrating Radar on the Mars 2020 mission’s Perseverance rover, which is planned to land near a deltaic landform in Jezero crater. RIMFAX will add a new dimension to rover investigations of Mars by providing the capability to image the shallow subsurface beneath the rover. The principal goals of the RIMFAX investigation are to image subsurface structure, and to provide information regarding subsurface composition. Data provided by RIMFAX will aid Perseverance’s mission to explore the ancient habitability of its field area and to select a set of promising geologic samples for analysis, caching, and eventual return to Earth. RIMFAX is a Frequency Modulated Continuous Wave (FMCW) radar, which transmits a signal swept through a range of frequencies, rather than a single wide-band pulse. The operating frequency range of 150–1200 MHz covers the typical frequencies of GPR used in geology. In general, the full bandwidth (with effective center frequency of 675 MHz) will be used for shallow imaging down to several meters, and a reduced bandwidth of the lower frequencies (center frequency 375 MHz) will be used for imaging deeper structures. The majority of data will be collected at regular distance intervals whenever the rover is driving, in each of the deep, shallow, and surface modes. Stationary measurements with extended integration times will improve depth range and SNR at select locations. The RIMFAX instrument consists of an electronic unit housed inside the rover body and an antenna mounted externally at the rear of the rover. Several instrument prototypes have been field tested in different geological settings, including glaciers, permafrost sediments, bioherme mound structures in limestone, and sedimentary features in sand dunes. Numerical modelling has provided a first assessment of RIMFAX’s imaging potential using parameters simulated for the Jezero crater landing site.en_GB
dc.language.isoenen_GB
dc.subjectRIMFAXen_GB
dc.subjectRadaren_GB
dc.subjectMarsen_GB
dc.subjectRomfarten_GB
dc.titleRadar imager for Mars’ subsurface experiment—RIMFAXen_GB
dc.typeArticleen_GB
dc.date.updated2020-12-01T13:11:32Z
dc.identifier.cristinID1849440
dc.identifier.doi10.1007/s11214-020-00740-4
dc.source.issn0038-6308
dc.source.issn1572-9672
dc.type.documentJournal article
dc.relation.journalSpace Science Reviews


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