期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 452, 期 2, 页码 1654-1676出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stv1354
关键词
planets and satellites: composition; planets and satellites: formation; planet-disc interactions; protoplanetary discs
资金
- STFC grant
- BIS National E-Infrastructure capital grant [ST/K000373/1]
- DiRAC Operations grant [ST/K0003259/1]
- Science and Technology Facilities Council [ST/K001000/1, 1508643, PP/E00119X/1, ST/K000373/1, ST/M006948/1, ST/H00856X/1, ST/H002235/1] Funding Source: researchfish
- STFC [ST/M006948/1, ST/K001000/1, ST/H00856X/1, PP/E00119X/1, ST/H002235/1, ST/K000373/1] Funding Source: UKRI
We present population synthesis calculations of the Tidal Downsizing (TD) hypothesis for planet formation. Our models address the following observations: (i) most abundant planets being super-Earths; (ii) cores more massive than similar to 5-15M(circle plus) are enveloped by massive atmospheres; (iii) the frequency of occurrence of close-in gas-giant planets correlates strongly with metallicity of the host star; (iv) no such correlation is found for sub-Neptune planets; (v) presence of massive cores in giant planets; (vi) gas-giant planets are overabundant in metals compared to their host stars; (vii) this overabundance decreases with planet's mass; (viii) a deep valley in the planet mass function between masses of similar to 10-20M(circle plus) and similar to 100M(circle plus). A number of observational predictions distinguish the model from Core Accretion: (a) composition of the massive cores is always dominated by rocks not ices; (b) the core mass function is smooth with no minimum at similar to 3M(circle plus) and has no ice-dominated cores; (c) gas giants beyond 10 au are insensitive to the host-star metallicity; (d) objects more massive than similar to 10 M-J do not correlate or even anticorrelate with metallicity. The latter prediction is consistent with observations of low-mass stellar companions. TD can also explain formation of planets in close binary systems. TD model is a viable alternative to the Core Accretion scenario in explaining many features of the observed population of exoplanets.
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