Add to ORKGEarth- to Neptune-mass planets launch spiral density waves in gaseous protoplanetary disks and undergo type 1 migration. In isothermal disks, type 1 migration is inward and the migration timescale is inversely proportional to the planet mass. In radiative disks migration can be directed inward or outward, depending on the planet's mass and the disk's physical properties. For a given planet mass, there exist locations within the disk where the migration is convergent. We present results of N-body simulations of systems of planetary embryos of a few Earth masses embedded in radiative disks. We concentrate on the collective behavior of the system of embryos and their collisional growth
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
International audienceEarth- to Neptune-mass planets launch spiral density waves in gaseous protopla...
Earth- to Neptune-mass planets launch spiral density waves in gaseous protoplanetary disks and under...
International audienceEarth- to Neptune-mass planets launch spiral density waves in gaseous protopla...
Formation models of close-in super-Earths can be divided into two groups; namely, in-situ formation ...
Formation models of close-in super-Earths can be divided into two groups; namely, in-situ formation ...
International audienceEarth-mass bodies are expected to undergo Type I migration directed either inw...
Earth-mass bodies are expected to undergo Type I migration directed either inward or outward dependi...
We study orbital evolution of multiple Earth-mass protoplanets in their natal protoplanetary disk. O...
Key Words accretion disk, planet formation, planetary systems Abstract As planets form and grow with...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
International audienceEarth- to Neptune-mass planets launch spiral density waves in gaseous protopla...
Earth- to Neptune-mass planets launch spiral density waves in gaseous protoplanetary disks and under...
International audienceEarth- to Neptune-mass planets launch spiral density waves in gaseous protopla...
Formation models of close-in super-Earths can be divided into two groups; namely, in-situ formation ...
Formation models of close-in super-Earths can be divided into two groups; namely, in-situ formation ...
International audienceEarth-mass bodies are expected to undergo Type I migration directed either inw...
Earth-mass bodies are expected to undergo Type I migration directed either inward or outward dependi...
We study orbital evolution of multiple Earth-mass protoplanets in their natal protoplanetary disk. O...
Key Words accretion disk, planet formation, planetary systems Abstract As planets form and grow with...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
Context. In isothermal discs, the migration of protoplanets is directed inwards. For small planetary...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...
Context. Rapid gas accretion onto gas giants requires the prior formation of ~ 10 M⊕ cores, and thi...