Add to ORKGPlanets may complete their accretion when they become massive enough to open gaps in the face of disk viscosity. The prediction that gap-opening mass is related to disk viscosity implies that planetary masses are sensitive to the degree of ionization of the disk in the expected situation that viscosity is driven by magnetoturbulence by the well-known MRI instability. We show that in dead zones - poorly ionized regions wherein the MRI instability is unable to develop - only planets of terrestrial mass can form while Jovian planets form outside such regions. Dead zones extend out to 5-20 AU depending upon the disk column density
Models of the accretion disks of Young Stellar Objects show that they should not be ionized at a few...
ALMA observations of dust ring/gap structures in a minority but growing sample of protoplanetary dis...
Planets open deep gaps in protoplanetary discs when their mass exceeds a gap opening mass, Mgap. We ...
Protoplanets accrete material from their natal protostellar disks until they are sufficiently massiv...
Most low-mass protostellar discs evolve in clustered environments where they are affected by externa...
The final masses of Jovian planets are attained when the tidal torques that they exert on their surr...
The ubiquity of Earth to super-Earth sized planets found very close to their host stars has motivate...
The growth of Jovian mass planets during migration in their protoplanetary disks is one of the most ...
The tidal interaction between a disk and a planet leading to a planet's migration is widely believed...
We studied the particle growth in a protoplanetary disk in a high-ionization environment and found t...
Aims. We present the results of hydrodynamic simulations of the growth and orbital evolution of gian...
We examine the conditions under which the disks of gas and dust orbit-ing young gas giant planets ar...
Simulations show that the orbits of planets are readily disrupted in dense star-forming regions; pla...
We examine a physical process that leads to the efficient formation of gas giant planets around inte...
The processes of planet formation and migration depend intimately on the interaction between planete...
Models of the accretion disks of Young Stellar Objects show that they should not be ionized at a few...
ALMA observations of dust ring/gap structures in a minority but growing sample of protoplanetary dis...
Planets open deep gaps in protoplanetary discs when their mass exceeds a gap opening mass, Mgap. We ...
Protoplanets accrete material from their natal protostellar disks until they are sufficiently massiv...
Most low-mass protostellar discs evolve in clustered environments where they are affected by externa...
The final masses of Jovian planets are attained when the tidal torques that they exert on their surr...
The ubiquity of Earth to super-Earth sized planets found very close to their host stars has motivate...
The growth of Jovian mass planets during migration in their protoplanetary disks is one of the most ...
The tidal interaction between a disk and a planet leading to a planet's migration is widely believed...
We studied the particle growth in a protoplanetary disk in a high-ionization environment and found t...
Aims. We present the results of hydrodynamic simulations of the growth and orbital evolution of gian...
We examine the conditions under which the disks of gas and dust orbit-ing young gas giant planets ar...
Simulations show that the orbits of planets are readily disrupted in dense star-forming regions; pla...
We examine a physical process that leads to the efficient formation of gas giant planets around inte...
The processes of planet formation and migration depend intimately on the interaction between planete...
Models of the accretion disks of Young Stellar Objects show that they should not be ionized at a few...
ALMA observations of dust ring/gap structures in a minority but growing sample of protoplanetary dis...
Planets open deep gaps in protoplanetary discs when their mass exceeds a gap opening mass, Mgap. We ...