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W2555363090 abstract "We studied the particle growth in a protoplanetary disk in a high-ionization environment and found that icy planet formation is inactive for a disk with an ionization rate 100 times higher than that of the present Solar System. In particular, in the case of M˙<10−7.4M⊙yr−1, only rocky planet formation occurs. In such a case, all the solid materials in the disk drift inward, eventually reach the inner MRI front, and accumulate there. They form a dense, thin sub-disk of solid particles, which undergoes gravitational instability to form rocky planetesimals. The planetesimals rapidly grow into a planet through pebble accretion. Consequently, rocky planets tend to be much larger than planets formed through other regimes (tandem planet formation regime and dispersed planet formation regime), in which icy planet formation actively takes place. These rocky planets may evolve into hot Jupiters if they grow fast enough to the critical core mass of the runaway gas accretion before the dispersal of the disk gas, or they may evolve into super-Earths if the gas dispersed sufficiently early." @default.
W2555363090 created "2016-11-30" @default.
W2555363090 creator A5049391785 @default.
W2555363090 creator A5078238567 @default.
W2555363090 date "2018-07-01" @default.
W2555363090 modified "2023-09-26" @default.
W2555363090 title "Single planet formation regime in the high-ionization environment: Possible origin of hot Jupiters and super-Earths" @default.
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W2555363090 doi "https://doi.org/10.1016/j.gsf.2016.11.003" @default.
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