O. Grasset (ed.); M. Blanc (ed.); A. Coustenis (ed.); William Durham (ed.); H. Hussmann (ed.); R. Pappalardo (ed.); Turrin Springer (2013) Saatavuus: Tilaustuote Pehmeäkantinen kirja
O. Grasset; M. Blanc; A. Coustenis; William Durham; H. Hussmann; R. Pappalardo; D. Turrini Springer-Verlag New York Inc. (2010) Saatavuus: Tilaustuote Kovakantinen kirja
Nils Anthes; Peter M. Kappeler; Ralph Bergmüller; Wolf Blanckenhorn; H. Jane Brockmann; Claudia Fichtel; Lutz Fromhage Springer-Verlag Berlin and Heidelberg GmbH & Co. KG (2010) Saatavuus: Tilaustuote Kovakantinen kirja
Nils Anthes; Peter M. Kappeler (ed.); Ralph Bergmüller; Wolf Blanckenhorn; H. Jane Brockmann; Claudia Fichtel; L Fromhage Springer (2016) Saatavuus: Tilaustuote Pehmeäkantinen kirja
Springer Sivumäärä: 536 sivua Asu: Pehmeäkantinen kirja Painos: 2010 Julkaisuvuosi: 2013, 28.01.2013 (lisätietoa) Kieli: Englanti
Recent space missions to the outer solar system, Galileo (1996–2003) and Cassini-Huygens (2004–today), together with ground observations, have revealed that the moons of the outer solar system are enigmatic objects, introducing extraordinary challenges for geologists, astrobiologists, organic chemists, and planetologists. Chemical exchange exists through the different layers that form their interiors, and also from the interior to the surface. The most convincing evidence is certainly the discovery of water vapour and ice particles emerging from Enceladus’s active south polar region. Evidence for exchange with a subsurface liquid ocean has also been provided by the inference of hydrated salts on the surfaces of Jupiter’s moons, Europa and Ganymede, as well as the detection of sodium salts in particles originating in Enceladus’s plumes. Aqueous exchange with the rocky core may also be possible, considering that 40Ar has been observed in the plumes of Enceladus during one flyby of Cassini and in the atmosphere of Titan. The ongoing CH4 replenishment in Titan’s atmosphere is additional striking evidence of exchange processes within the moons.