2020
DOI: 10.1051/0004-6361/201936783
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Enrichment of the HR 8799 planets by minor bodies and dust

Abstract: Context. In the Solar System, minor bodies and dust deliver various materials to planetary surfaces. Several exoplanetary systems are known to host inner and outer belts, analogues of the main asteroid belt and the Kuiper belt, respectively. Aims. We study the possibility that exominor bodies and exodust deliver volatiles and refractories to the exoplanets in the well-characterised system HR 8799. Methods. We performed N-body simulations to study the impact rates of minor bodies in the system HR 8799. The mode… Show more

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Cited by 4 publications
(3 citation statements)
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“…The black line is the 3σ limit averaged over the all possible ω. Planets lying in the blue "disallowed region" are excluded with at least 99.7% confidence, regardless of their orbital phase. The approximate range of the inner debris belt is indicated by vertical dashed lines (6 to 15 au; Frantseva et al 2020).…”
Section: The Age Of the Hr 8799 Systemmentioning
confidence: 99%
“…The black line is the 3σ limit averaged over the all possible ω. Planets lying in the blue "disallowed region" are excluded with at least 99.7% confidence, regardless of their orbital phase. The approximate range of the inner debris belt is indicated by vertical dashed lines (6 to 15 au; Frantseva et al 2020).…”
Section: The Age Of the Hr 8799 Systemmentioning
confidence: 99%
“…Such objects could have high influence on their neighborhood in many different ways, including transport of materials from one part of the system to another. A well-known example is the transport of water in our Solar System (O'Brien et al 2014), but a similar approach has been applied also to other planetary systems (Dvorak, Loibnegger & Cuntz 2020;Frantseva et al 2020).…”
Section: Introductionmentioning
confidence: 99%
“…Giant planets present in debris disks are thought to impart structures on the dust in debris disks (e.g., Dawson et al 2011;Crotts et al 2021), however, it is unclear if and to what extent the dust and minor bodies in debris disks can affect giant planets via accretion. Giant planets likely form within ∼10 Myr, before the debris disk evolutionary stage (Williams & Cieza 2011;Li & Xiao 2016), although it is still possible for material from debris disks to accrete onto giant planets (e.g., Frantseva et al 2020;Kral et al 2020). In our solar system for instance, the impact of comet Shoemaker-Levy 9 in 1994 delivered refractory material to Jupiter's atmosphere (Harrington et al 2004;Fletcher et al 2010).…”
Section: Introductionmentioning
confidence: 99%