Space instrumentation

Tailoring Infrared Filters for Global Mapping of Enceladus' Surface Temperatures

Curran Associates (2024) 935-941

Authors:

Duncan Lyster, Carly Howett, Neil Bowles, Keith Nowicki, Rory Evans, Tristram Warren

Ultraviolet and visible reflectance spectra of Phobos and Deimos as measured by the ExoMars-TGO/Nomad-UVIS spectrometer

Journal of Geophysical Research: Planets Wiley 128:12 (2023) e2023JE008002

Authors:

Jp Mason, Mr Patel, M Pajola, Ed Cloutis, J Alday, Ks Olsen, C Marriner, Ja Holmes, G Sellers, N Thomas, M Almeida, M Read, H Nakagawa, Ir Thomas, B Ristic, Y Willame, C Depiesse, F Daerden, Ac Vandaele, Jj Lopez-Moreno, G Bellucci

Abstract:

Spectroscopic measurements are a powerful tool to investigate the surface composition of airless bodies and provide clues of their origin. The composition and origin of Phobos and Deimos are still unknown and are currently widely debated. We present spectroscopic measurements of Phobos and Deimos at ultraviolet and visible wavelengths (250–650 nm) made by the NOMAD-Ultraviolet and Visible Spectrometer (UVIS) on the ExoMars TGO mission. These new spectra cover multiple areas on Phobos and Deimos, and are of generally higher spectral resolution and signal-to-noise than previous spectra, and extend to lower wavelengths than most previous measurements. The UVIS spectra confirm a red-sloped spectrum lacking any strong absorption features; however, we confirm the presence of a previously identified absorption feature near 0.65 μm and tentative absorption near 0.45 μm. The observed Phobos and Deimos spectra are similar to D- and T-type asteroids, adding weight to the captured asteroid hypothesis for the moons' origins. We also find, however, that the UVIS Phobos reflectance spectra of Phobos' red unit is a relatively close match to the olivine-rich, highly shocked Mars meteorite NWA 2737, with a low overall reflectance, a red-sloped spectrum, and lack of olivine-associated absorption bands in the UVIS spectral range. This meteorite, however, exhibits spectral features at longer wavelengths that not observed in the Martian moon spectra, indicating a need for further investigation at longer wavelengths to interpret whether this material could inform our understanding of Phobos' origin.

Correction to: Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations

Space Science Reviews Springer Nature 219:8 (2023) 72

Authors:

Thomas Widemann, Suzanne E Smrekar, James B Garvin, Anne Grete Straume-Lindner, Adriana C Ocampo, Mitchell D Schulte, Thomas Voirin, Scott Hensley, M Darby Dyar, Jennifer L Whitten, Daniel C Nunes, Stephanie A Getty, Giada N Arney, Natasha M Johnson, Erika Kohler, Tilman Spohn, Joseph G O’Rourke, Colin F Wilson, Michael J Way, Colby Ostberg, Frances Westall, Dennis Höning, Seth Jacobson, Arnaud Salvador, Guillaume Avice, Doris Breuer, Lynn Carter, Martha S Gilmore, Richard Ghail, Jörn Helbert, Paul Byrne, Alison R Santos, Robert R Herrick, Noam Izenberg, Emmanuel Marcq, Tobias Rolf, Matt Weller, Cedric Gillmann, Oleg Korablev, Lev Zelenyi, Ludmila Zasova, Dmitry Gorinov, Gaurav Seth, CV Narasimha Rao, Nilesh Desai

L’Ralph: A Visible/Infrared Spectral Imager for the Lucy Mission to the Trojans

Space Science Reviews Springer Nature 219:8 (2023) 69

Authors:

DC Reuter, AA Simon, A Lunsford, H Kaplan, M Garrison, J Simpson, G Casto, Z Dolch, P Finneran, W Grundy, C Howett, P Kim, M Loose, T Null, F Parong, J Rodriguez-ruiz, P Roming, K Smith, P Thompson, B Tokarcik, T Veach, S Wall, J Ward, E Weigle, H Levison

The radiometric environment for Mars limb observations by the Mars Sample Return Earth Return Orbiter

Advances in Space Research Elsevier 72:9 (2023) 4048-4063

Authors:

Marek Slipski, Armin Kleinböhl, Daniela Tirsch, Gerhard Kminek, Gregory Jonniaux, Klaus-Dieter Matz, Anni Määttänen, Austin Nicholas, Franck Montmessin, Soren N Madsen, Matthew Abrahamson, Manuel Sanchez-Gestido, Michael A Mischna, Neil Paul Murray, Michael J Wolff, Pierre Blanc-Paques, Fabrice Cipriani, Colin F Wilson, Dmitri Titov, Richard Zurek