The global perspective on the evolution of solids in a protoplanetary disk
The global perspective on the evolution of solids in a protoplanetary disk
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Date
1996
Authors
Stepinski, T. F.
Valageas, P.
Journal Title
Journal ISSN
Volume Title
Publisher
Ames Research Center
Abstract
It is currently thought that planets around solar-type stars form by the accumulation of solid matter entrained in a gaseous, turbulent protoplanetary disk. We have developed a model designed to simulate the part of this process that starts from small particles suspended in the gaseous disk at the end of the formation stage, and ends up with most of the solid material aggregated into 1-10-km planetesimals. The major novelty of our approach is its emphasis on the global, comprehensive treatment of the problem, as our model simultaneously keeps track of the evolution of gas and solid particles due to gas-solid coupling, coagulation, sedimentation, and evaporation/condensation. The result of our calculations is the radial distribution of solid material circumnavigating a star in the form of a planetesimal swarm.
Description
Keywords
Planets--Origin,
Planetary systems--Mathematical models
Citation
Kress, M.E., A.G.G.M. Tielens, and Y.J. Pendleton. 1996. From stardust to planetesimals: contributed papers : proceedings of a symposium held in Santa Clara, California, June 24-26, 1996. Moffett Field: NASA, Ames Research Center.