Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/20.500.12666/696
Título : Do instabilities in high-multiplicity systems explain the existence of close-in white dwarf planets?
Autor : Maldonado, R. F.
Villaver, E.
Mustill, A. J.
Chávez, M.
Bertone, E.
Palabras clave : Kuiper Belt: general;Planets and satellites: dynamical evolution adn stability;Stars: AGB and post- AGB;Circumstellar matter;Planetary systems;White dwarfs
Fecha de publicación : 3-feb-2021
Editorial : Oxford Academics: Oxford University Press
DOI: 10.1093/mnrasl/slaa193
Versión del Editor: https://academic.oup.com/mnrasl/article-abstract/501/1/L43/6019876
Citación : Monthly Notices of the Royal Astronomical Society 501(1), L43-L48(2021)
Resumen : We investigate the origin of close-in planets and related phenomena orbiting white dwarfs (WDs), which are thought to originate from orbits more distant from the star. We use the planetary architectures of the 75 multiple-planet systems (four, five, and six planets) detected orbiting main-sequence stars to build 750 dynamically analogous templates that we evolve to the WD phase. Our exploration of parameter space, although not exhaustive, is guided and restricted by observations and we find that the higher the multiplicity of the planetary system, the more likely it is to have a dynamical instability (losing planets, orbit crossing, and scattering), that eventually will send a planet (or small object) through a close periastron passage. Indeed, the fraction of unstable four- to six-planet simulations is comparable to the 25–50 per cent fraction of WDs having atmospheric pollution. Additionally, the onset of instability in the four- to six-planet configurations peaks in the first Gyr of the WD cooling time, decreasing thereafter. Planetary multiplicity is a natural condition to explain the presence of close-in planets to WDs, without having to invoke the specific architectures of the system or their migration through the von Zeipel–Lidov–Kozai effects from binary companions or their survival through the common envelope phase.
URI : http://hdl.handle.net/20.500.12666/696
E-ISSN : 1745-3933
ISSN : 1745-3925
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