Statistical model of the distribution of matter of protoplanetary disks

Statistical model of the distribution of matter of protoplanetary disks

In the majority of models, the protoplanetary disks have a continuous distribution of gas and dust, with a dynamics that gives origin to the planets, which in the process of formation, make grooves on the disk by gravitationally capturing the existing matter around them. Transition disks are a cl...

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Bibliographic Details
Main Authors: Poveda Tejada, Nicanor, Rodríguez Cuevas, Luz Mary, Vera Villamizar, N.
Format: Online
Language:spa
Published: Universidad Pedagógica y Tecnológica de Colombia 2018
Subjects:
Discos de transición, disco protoplanetario, simulación de discos protoplanetarios.
Online Access:https://revistas.uptc.edu.co/index.php/ciencia_en_desarrollo/article/view/8812
Description
Summary:In the majority of models, the protoplanetary disks have a continuous distribution of gas and dust, with a dynamics that gives origin to the planets, which in the process of formation, make grooves on the disk by gravitationally capturing the existing matter around them. Transition disks are a class of protoplanetary disk that has a large cavity free of gas and dust inside. In this paper a statistical model based on transitional discs is proposed, which extends to protoplanetary disks. With this model you can perform dynamic simulations of planetary formation using few parameters. The process followed to simulate the transition disk DoAr44 and the protoplanetary disk Hl-Tauri is shown. Unlike other models, the formation of planetary bodies is faster.