Future Missions Related to the Determination of the Elemental and Isotopic Composition of Earth, Moon and the Terrestrial Planets

Abstract: In this chapter, we review the contribution of space missions to the determination of the elemental and isotopic composition of Earth, Moon and the terrestrial planets, with special emphasis on currently planned and future missions. We show how these missions are going to significantly contribute to, or sometimes revolutionise, our understanding of planetary evolution, from formation to the possible emergence of life. We start with the Earth, which is a unique habitable body with actual life, and that is stron… Show more

“…Our results may hold implications toward the broader question of whether global magnetic dynamos are important for planetary habitability. In the context of planetary evolution, global magnetic fields are often described as critical for the retention of a planet's atmosphere, but it is currently unclear whether this is the case (Brain et al., 2013; Dandouras et al., 2020; Egan et al., 2019; Moore & Horwitz, 2007; Strangeway et al., 2010). We may be able to treat crustal fields as a microcosm through which we can characterize the effects of global‐scale fields, and investigations of the kind presented here represent a significant step toward that goal.…”

Martian Crustal Field Influence on O⁺ and O₂⁺ Escape as Measured by MAVEN

“…Our results may hold implications toward the broader question of whether global magnetic dynamos are important for planetary habitability. In the context of planetary evolution, global magnetic fields are often described as critical for the retention of a planet's atmosphere, but it is currently unclear whether this is the case (Brain et al., 2013; Dandouras et al., 2020; Egan et al., 2019; Moore & Horwitz, 2007; Strangeway et al., 2010). We may be able to treat crustal fields as a microcosm through which we can characterize the effects of global‐scale fields, and investigations of the kind presented here represent a significant step toward that goal.…”

Martian Crustal Field Influence on O⁺ and O₂⁺ Escape as Measured by MAVEN

“…Our results may hold implications toward the broader question of whether global magnetic dynamos are important for planetary habitability. In the context of planetary evolution, global magnetic fields are often described as critical for the retention of a planet's atmosphere, but it is currently unclear whether this is the case (Brain et al, 2013;Dandouras et al, 2020;Egan et al, 2019;Moore & Horwitz, 2007;Strangeway et al, 2010). We may be able to treat crustal fields as a microcosm through which we can characterize the effects of global-scale fields, and investigations of the kind presented here represent a significant step toward that goal.…”

Martian crustal field influence on O+ and O2+ escape as measured by MAVEN

“…Ion and neutral mass spectrometry technique has been systematically used also for the study of other planetary upper atmospheres in our solar system (Waite et al, 2004;Balsiger et al, 2007;Wurz et al, 2012;Mahaffy et al, 2015). However, after the Dynamics Explorer-2 (DE-2) mission in 1983 no other successful neutral mass spectrometer measurements have been obtained in the terrestrial thermosphere (Dandouras et al, 2018(Dandouras et al, , 2020Sarris et al, 2020).…”

“…It is generally displayed as 2D maps based on networks of ground-based receivers (Coster et al, 1992). Over the years, TEC has successfully been used for studies of the response of the ionosphere to geomagnetic storms (Danilov, 2013;Mendillo, 2006), but also to study dynamics of ionospheric structures such as polar cap patches or travelling ionospheric disturbances (Tsugawa et al, 2004;Durgonics et al, 2017). In numerical simulations which model the LTI, TEC is naturally obtained by integrating the computed electron density along a (slanted or vertical) path.…”

Lower-thermosphere–ionosphere (LTI) quantities: current status of measuring techniques and models