SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4322002815> ?p ?o ?g. }

Showing items 1 to 44 of 44 with 100 items per page.

W4322002815 abstract "The ESA M7 Heavy Metal mission proposal is presented. It will provide detailed science investigations to characterize the large M-class asteroid (216) Kleopatra and its two moons, but also explore 1 or 2 additional M-type asteroids with the same mission. The main goals are:What is the origin and evolutionary history of metallic (M-class) asteroids? Are the M-class asteroids the parent bodies of magnetized iron-nickel meteorites? Are the M-class asteroids the collisional remains of early protoplanetary dynamos? How does the potentially unique space environment around M-class asteroids work? How do contact binary asteroids form and evolve? What is the nature and origin of asteroid satellites? The combination of electromagnetic and gravity field (radio science) mapping by two spacecraft provides insight into its internal structure. Remote observations of the surface made in the visible, IR, UV, and radar wavelengths by the Main-craft will complement this by providing a geological context for the origin of any magnetization and its cause. The possibility of remnant magnetization occurring in localized regions, or otherwise being ‘disordered’, will be addressed by making electromagnetic and plasma measurements close to the surface to identify and remove space environment magnetic field variations. We propose to use one Sub-craft to be inserted into a lower-altitude orbit for a duration of a month before the Sub-craft makes a controlled crash on the surface. This will facilitate near surface measurements of the electromagnetic and gravity fields, the composition of any volatile products ejected from the surface and produce truly high-resolution pictures of the surface, complementing the remote observations by the main S/C further away (~20 km). Additionally, simultaneous measurement of the space environment, including the electromagnetic fields, at both the Sub-craft and Main craft will allow a detailed study of the solar wind electromagnetic variations, and the induction of electrical currents in the partly conductive asteroid surface by the solar wind.High resolution hyperspectral imaging on a close flying Sub-craft will also be able to resolve cm-sized structures. This imaging will help us to decipher the grain size of the minerals, their textures, and the degree of brecciation of the surface to get a comprehensive interpretation about the nature of the regions spectroscopically analysed. These will allow us to determine if the asteroid is composed of relatively homogeneous iron- or rocky-iron-like materials, or more complex products of collisional gardening associated with chondritic impactors. The comparison of the detailed surface geology investigation by Heavy Metal with the terrestrial meteorite record will address the possible connections between metallic meteorites and the M-class asteroids. This investigation with a combined Main-craft and a Sub-craft will give a meaningful investigation for the cosmogony of this type of asteroids, and their relationship to meteoric magnetism. Likewise, an investigation of the composition, geology, and magnetization of the two sizable moons will give information regarding their origin, if coming from (216) Kleopatra or being captured.The mission was not selected by ESA for an M7 implementation because of cost reasons. The mission was judged to be of high scientific value and considered doable in all other aspects. " @default.
W4322002815 created "2023-02-26" @default.
W4322002815 creator A5085718558 @default.
W4322002815 date "2023-05-15" @default.
W4322002815 modified "2023-09-29" @default.
W4322002815 title "Heavy Metal, an ESA M7 mission proposal" @default.
W4322002815 doi "https://doi.org/10.5194/egusphere-egu23-12578" @default.
W4322002815 hasPublicationYear "2023" @default.
W4322002815 type Work @default.
W4322002815 citedByCount "0" @default.
W4322002815 crossrefType "posted-content" @default.
W4322002815 hasAuthorship W4322002815A5085718558 @default.
W4322002815 hasConcept C121332964 @default.
W4322002815 hasConcept C127313418 @default.
W4322002815 hasConcept C1276947 @default.
W4322002815 hasConcept C151730666 @default.
W4322002815 hasConcept C2779343474 @default.
W4322002815 hasConcept C51244244 @default.
W4322002815 hasConcept C58142911 @default.
W4322002815 hasConcept C87355193 @default.
W4322002815 hasConceptScore W4322002815C121332964 @default.
W4322002815 hasConceptScore W4322002815C127313418 @default.
W4322002815 hasConceptScore W4322002815C1276947 @default.
W4322002815 hasConceptScore W4322002815C151730666 @default.
W4322002815 hasConceptScore W4322002815C2779343474 @default.
W4322002815 hasConceptScore W4322002815C51244244 @default.
W4322002815 hasConceptScore W4322002815C58142911 @default.
W4322002815 hasConceptScore W4322002815C87355193 @default.
W4322002815 hasLocation W43220028151 @default.
W4322002815 hasOpenAccess W4322002815 @default.
W4322002815 hasPrimaryLocation W43220028151 @default.
W4322002815 hasRelatedWork W2970780313 @default.
W4322002815 hasRelatedWork W2989796715 @default.
W4322002815 hasRelatedWork W3001310324 @default.
W4322002815 hasRelatedWork W3004033155 @default.
W4322002815 hasRelatedWork W3019228946 @default.
W4322002815 hasRelatedWork W3088282875 @default.
W4322002815 hasRelatedWork W93171654 @default.
W4322002815 hasRelatedWork W2896572592 @default.
W4322002815 hasRelatedWork W3113241605 @default.
W4322002815 hasRelatedWork W3204661160 @default.
W4322002815 isParatext "false" @default.
W4322002815 isRetracted "false" @default.
W4322002815 workType "article" @default.