Core instability models of giant planet accretion and the planetary desert

With the aim of studying the final mass distribution of extrasolar planets, we have developed a simple model based on the core instability model, which allows us to form a large population of planets and make them evolve in circumstellar discs with various initial conditions. We investigate the cons...

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Detalles Bibliográficos
Autores principales: Miguel, Yamila, Brunini, Adrián
Formato: Articulo
Lenguaje:Inglés
Publicado: 2008
Materias:
Acceso en línea:http://sedici.unlp.edu.ar/handle/10915/123810
Aporte de:
id I19-R120-10915-123810
record_format dspace
institution Universidad Nacional de La Plata
institution_str I-19
repository_str R-120
collection SEDICI (UNLP)
language Inglés
topic Ciencias Astronómicas
Planets and satellites: formation
Solar system: formation
spellingShingle Ciencias Astronómicas
Planets and satellites: formation
Solar system: formation
Miguel, Yamila
Brunini, Adrián
Core instability models of giant planet accretion and the planetary desert
topic_facet Ciencias Astronómicas
Planets and satellites: formation
Solar system: formation
description With the aim of studying the final mass distribution of extrasolar planets, we have developed a simple model based on the core instability model, which allows us to form a large population of planets and make them evolve in circumstellar discs with various initial conditions. We investigate the consequences that different prescriptions for the solid and gas accretion rates would have on this distribution and found that it is strongly dependent on the adopted model for the gas accretion.
format Articulo
Articulo
author Miguel, Yamila
Brunini, Adrián
author_facet Miguel, Yamila
Brunini, Adrián
author_sort Miguel, Yamila
title Core instability models of giant planet accretion and the planetary desert
title_short Core instability models of giant planet accretion and the planetary desert
title_full Core instability models of giant planet accretion and the planetary desert
title_fullStr Core instability models of giant planet accretion and the planetary desert
title_full_unstemmed Core instability models of giant planet accretion and the planetary desert
title_sort core instability models of giant planet accretion and the planetary desert
publishDate 2008
url http://sedici.unlp.edu.ar/handle/10915/123810
work_keys_str_mv AT miguelyamila coreinstabilitymodelsofgiantplanetaccretionandtheplanetarydesert
AT bruniniadrian coreinstabilitymodelsofgiantplanetaccretionandtheplanetarydesert
bdutipo_str Repositorios
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