2020
DOI: 10.3847/1538-4357/ab5d32
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Machine-learning Inference of the Interior Structure of Low-mass Exoplanets

Abstract: We explore the application of machine learning based on mixture density neural networks (MDNs) to the interior characterization of low-mass exoplanets up to 25 Earth masses constrained by mass, radius, and fluid Love number k 2 . We create a dataset of 900 000 synthetic planets, consisting of an iron-rich core, a silicate mantle, a high-pressure ice shell, and a gaseous H/He envelope, to train a MDN using planetary mass and radius as inputs to the network. For this layered structure, we show that the MDN is ab… Show more

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Cited by 41 publications
(45 citation statements)
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“…The models of Howe et al (2014) suggest that an H 2 -He envelope constituting approximately half of the planet's radius would contribute five to ten per cent of the planet's mass, for a core mass of 10 M ⊕ . In other words, there is broad compatibility between the models of Baumeister et al (2020) (Fig. 6) and the model of Zeng et al (2019) with a five per cent (by mass) hydrogen-rich envelope (Fig.…”
Section: Discussionmentioning
confidence: 62%
See 1 more Smart Citation
“…The models of Howe et al (2014) suggest that an H 2 -He envelope constituting approximately half of the planet's radius would contribute five to ten per cent of the planet's mass, for a core mass of 10 M ⊕ . In other words, there is broad compatibility between the models of Baumeister et al (2020) (Fig. 6) and the model of Zeng et al (2019) with a five per cent (by mass) hydrogen-rich envelope (Fig.…”
Section: Discussionmentioning
confidence: 62%
“…We use the neural network model of planetary interiors developed by Baumeister et al (2020) to predict the internal structure of NGTS-14Ab (Fig. 6), using the planetary mass and radius (Table 5) as model inputs.…”
Section: Discussionmentioning
confidence: 99%
“…Baumeister et al. (2020) used MDNs to predict the distribution of the possible interior structures of extrasolar planets for given mass and radius.…”
Section: Introductionmentioning
confidence: 99%
“…They argued that under the assumption of smooth probability distributions between training samples, MDNs need significantly fewer simulations than MCMC methods for constraining mantle convection parameters. Baumeister et al (2020) used MDNs to predict the distribution of the possible interior structures of extrasolar planets for given mass and radius.…”
mentioning
confidence: 99%
“…Any H/He atmospheres these close-in super-Earths may have accreted from the protoplanetary nebula during formation must have been lost, likely by thermal escape (e.g., Lopez & Fortney 2013Zahnle & Catling 2017). For sub-Neptunes with radii above the valley, there is more ambiguity, as their masses and radii can be explained by various proportions of iron, rock, water, and H/He (e.g., Valencia et al 2007Valencia et al , 2013Adams et al 2008;Rogers & Seager 2010a, 2010bHowe et al 2014;Dorn et al 2017;Baumeister et al 2020). One possibility is that most of these sub-Neptunes possess rock/iron cores and are surrounded by thick H/He envelopes contributing ∼1%-10% of the total planet mass (Lopez & Fortney 2013Jin & Mordasini 2018).…”
Section: Introductionmentioning
confidence: 99%