Journal ArticleDOI
Accumulation and Migration of the Bodies from the Zones of Giant Planets
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In this article, the authors investigated the formation and migration of bodies from the feeding zones of the giant planets by using computer simulation of evolving disks, which initially consisted of hundreds of particles moving about the Sun and coagulating under collisions.Abstract:
Within the model of solid-body accumulation of planets (or their nuclei) the accumulation and migration of bodies from the feeding zones of the giant planets are investigated. The investigation is based on results of computer simulation of evolving disks which initially consisted of hundreds of particles moving about the Sun and coagulating under collisions. In some models the disks initially consisted of identical bodies. In other models they included also almost-formed planets. The computer simulation results as well as analytical investigations of the disk evolution depending on the number of particles in the disk allowed some estimates and conclusions on the accumulation process when the number of initial bodies was great (~ 106−1012). In this paper the characteristics of an initial protoplanetary circumsolar cloud, the body migration in the forming solar system, the planet orbit evolution, the formation of the beyond-Neptune belt and asteroid belts between the giant planet orbits are considered. The results obtained confirm many analytical estimates earlier made by V. S. Safronov and his colleagues.read more
Citations
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Journal ArticleDOI
Orbital expansion and resonant trapping during the late accretion stages of the outer planets
J. A. Fernandez,Wing-Huen Ip +1 more
TL;DR: In this article, the formation process of Uranus and Neptune is numerically explored by using a simple two-body approximation based on Opik's formalism, and it is found that the accretion process in the outer planetary region usually leads to the formation of two large planets, the mass of the farther one being in most cases somewhat larger than that of the closer one.
Journal ArticleDOI
Steady-state injection of short-period comets from the trans-Neptunian cometary belt
Wing-Huen Ip,J.A. Fernández +1 more
TL;DR: In this article, the authors examined the scenario of the existence of a trans-Neptunian comet belt as an important source region of the short-period comets, the dynamical perturbation on a system of such icy planetesimals by a few Mars-to Earth-sized planetoids in highly eccentric orbits is considered.
Journal ArticleDOI
Migration of Trans-Neptunian Objects to the Earth
TL;DR: In this paper, the authors investigated the migration of trans-Neptunian objects under their mutual gravitation influence and the influence of the giant planets and estimated that about 20 % of near-Earth objects with diameter ≥ 1 km may have come from the Edgeworth-Kuiper belt.
Book ChapterDOI
Migration of Bodies in the Accumulation of Planets
TL;DR: In this article, the authors used the Tisserand spheres method to solve the two-body problem and found that the probability of an encounter of the pair of encounting bodies was minimal.
Journal ArticleDOI
Migration of Celestial Bodies in the Solar System
TL;DR: In this article, the migration of planetesimals and embryos of forming planets was investigated on the basis of computer runs of the evolution of disks of gravitating bodies orbiting the Sun.
References
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Journal ArticleDOI
The formation of planetesimals.
Peter Goldreich,William R. Ward +1 more
TL;DR: In this paper, four stages in the accretion of planetesimals are described, the initial stage is the condensation of dust particles from the gaseous solar nebula as it cools.
Journal ArticleDOI
Formation of the Giant Planets
TL;DR: In this paper, the structure of a gaseous envelope surrounding a protoplanet has been investigated in connection with the formation of the giant planets, and the most remarkable result is that a common relation between the core mass and the total mass holds irrespectively of the regions in the solar nebula.
Journal ArticleDOI
The Gas Drag Effect on the Elliptic Motion of a Solid Body in the Primordial Solar Nebula
TL;DR: The gas drag effect in the primordial solar nebula on the motion of a solid body, ranging from a large planetesimal to a small dust grain, is investigated in this article.
Journal ArticleDOI
Some dynamical aspects of the accretion of Uranus and Neptune: The exchange of orbital angular momentum with planetesimals
J.A. Fernández,Wing-Huen Ip +1 more
TL;DR: In this paper, the final stage of the accretion of Uranus and Neptune is numerically investigated and two possible effects that may have contributed to the formation of the two outer Jovian planets are incorporated in the model.