The Heavy Element Composition of Disk Instability Planets Can Range From
  Sub- to Super-Nebular

Aaron C. Boley; Bakos; Baraffe; Boley; Boley; Boley; Boley; Boley; Boley; Boss; Boss; Boss; Boss; Burrows; Cai; Cai; Cha; D'Angelo; Dodson-Robinson; Durisen; Gammie; Haghighipour; Haghighipour; Helled; Ikoma; Johansen; Johnson; Kratter; Li; Matthew J. Payne; Mayer; Mayer; Nayakshin; Nelson; Pickett; Rafikov; Ravit Helled; Rice; Safronov; Vorobyov; Vorobyov; Xie; Zhu

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The Heavy Element Composition of Disk Instability Planets Can Range From Sub- to Super-Nebular

Authors: Aaron C. Boley
Bakos
Baraffe
Boley
Boley
Boley
Boley
Boley
Boley
Boss
Boss
Boss
Boss
Burrows
Cai
Cai
Cha
D'Angelo
Dodson-Robinson
Durisen
Gammie
Haghighipour
Haghighipour
Helled
Ikoma
Johansen
Johnson
Kratter
Li
Matthew J. Payne
Mayer
Mayer
Nayakshin
Nelson
Pickett
Rafikov
Ravit Helled
Rice
Safronov
Vorobyov
Vorobyov
Xie
Zhu
Publication date: 5 April 2011
Publisher: 'IOP Publishing'
Doi

Abstract

Transit surveys combined with Doppler data have revealed a class of gas giant planets that are massive and highly enriched in heavy elements (e.g., HD149026b, GJ436b, and HAT-P-20b). It is tempting to consider these planets as validation of core accretion plus gas capture because it is often assumed that disk instability planets should be of nebular composition. We show in this paper, to the contrary, that gas giants that form by disk instability can have a variety of heavy element compositions, ranging from sub- to super-nebular values. High levels of enrichment can be achieved through one or multiple mechanisms, including enrichment at birth, planetesimal capture, and differentiation plus tidal stripping. As a result, the metallicity of an individual gas giant cannot be used to discriminate between gas giant formation modes.Comment: Accepted by Ap

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