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      Origin and evolution of the atmospheres of early Venus, Earth and Mars

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          Origin of the orbital architecture of the giant planets of the Solar System.

          Planetary formation theories suggest that the giant planets formed on circular and coplanar orbits. The eccentricities of Jupiter, Saturn and Uranus, however, reach values of 6 per cent, 9 per cent and 8 per cent, respectively. In addition, the inclinations of the orbital planes of Saturn, Uranus and Neptune take maximum values of approximately 2 degrees with respect to the mean orbital plane of Jupiter. Existing models for the excitation of the eccentricity of extrasolar giant planets have not been successfully applied to the Solar System. Here we show that a planetary system with initial quasi-circular, coplanar orbits would have evolved to the current orbital configuration, provided that Jupiter and Saturn crossed their 1:2 orbital resonance. We show that this resonance crossing could have occurred as the giant planets migrated owing to their interaction with a disk of planetesimals. Our model reproduces all the important characteristics of the giant planets' orbits, namely their final semimajor axes, eccentricities and mutual inclinations.
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            On the tidal interaction between protoplanets and the protoplanetary disk. III - Orbital migration of protoplanets

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              The Angular Momentum of the Solar Wind

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                Author and article information

                Journal
                The Astronomy and Astrophysics Review
                Astron Astrophys Rev
                Springer Science and Business Media LLC
                0935-4956
                1432-0754
                November 2018
                May 10 2018
                November 2018
                : 26
                : 1
                Article
                10.1007/s00159-018-0108-y
                4fbaf3c4-9e1f-4629-9495-412b63063d7b
                © 2018

                http://www.springer.com/tdm

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