Simulations require 2000 Earth masses of pebbles to match observed disc gaps, but this produces mostly gas giants and few super-Earths, contradicting exoplanet data.
in Elvius A., ed., From Plasma to Planet
2 Pith papers cite this work. Polarity classification is still indexing.
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A review of protoplanetary disc processes, with emphasis on size sorting as a mechanism that can generate nucleosynthetic isotopic heterogeneities in the Solar System.
citing papers explorer
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Are the observed gaps in protoplanetary discs caused by growing planets?
Simulations require 2000 Earth masses of pebbles to match observed disc gaps, but this produces mostly gas giants and few super-Earths, contradicting exoplanet data.
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Dust Processing in Protoplanetary Discs From Infall to Dispersal: the Origin of Solar System Isotopic Heterogeneities
A review of protoplanetary disc processes, with emphasis on size sorting as a mechanism that can generate nucleosynthetic isotopic heterogeneities in the Solar System.