Solar Orbiter: Mission and spacecraft design
C García Marirrodriga, A. Pacros, Stein Strandmoe, M. Arcioni, A. Arts, C. Ashcroft, L. Ayache, Y. Bonnefous, N. Brahimi, F. Cipriani, C. Damasio, S. J. de Jong, Grégoire Deprez, Salma Fahmy, Raymond Fels, Jorge Fiebrich, C. Hass, C. Hernández, Lidia Icardi, A. Junge, P. Kletzkine, P. Laget, Y. Le Deuff, F. Liebold, Sylvain Lodiot, F. Marliani, Marco Mascarello, D. Müller, A. Oganessian, P. Olivier, E. Palombo, Christian Philippe, U Ragnit, J. Ramachandran, J.M. Sánchez-Pérez, M. M. Stienstra, S. Thürey, A. Urwin, K. Wirth, I. Zouganelis
Abstract
The main scientific goal of Solar Orbiter is to address the central question of heliophysics: ‘how does the Sun create and control the heliosphere?’ To achieve this goal, the spacecraft carries a unique combination of ten scientific instruments (six remote-sensing instruments and four in-situ instruments) towards the innermost regions of the Solar System, to as close as 0.28 AU from the Sun during segments of its orbit. The orbital inclination will be progressively increased so that the spacecraft reaches higher solar latitudes (up to 34° towards the end of the mission), making detailed studies of the polar regions of the Sun possible for the first time. This paper presents the spacecraft and its intended trip around the Sun. We also discuss the main engineering challenges that had to be addressed during the development cycle, instrument integration, and testing of the spacecraft.